Regina 7.3 Calculation Engine
Public Member Functions | Static Public Attributes | List of all members
regina::SimpleSurfaceBundle Class Reference

Represents a particularly simple closed surface bundle over the circle. More...

#include <manifold/simplesurfacebundle.h>

Inheritance diagram for regina::SimpleSurfaceBundle:
regina::Manifold regina::Output< Manifold >

Public Member Functions

 SimpleSurfaceBundle (int bundleType)
 Creates a new surface bundle of the given type. More...
 
 SimpleSurfaceBundle (const SimpleSurfaceBundle &)=default
 Creates a new copy of the given surface bundle. More...
 
int type () const
 Returns the specific type of surface bundle being represented. More...
 
bool operator== (const SimpleSurfaceBundle &compare) const
 Determines whether this and the given surface bundle are of the same type (i.e., they represent the same 3-manifold). More...
 
bool operator!= (const SimpleSurfaceBundle &compare) const
 Determines whether this and the given surface bundle are of different types (i.e., they represent different 3-manifolds). More...
 
SimpleSurfaceBundleoperator= (const SimpleSurfaceBundle &)=default
 Sets this to be a copy of the given surface bundle. More...
 
void swap (SimpleSurfaceBundle &other) noexcept
 Swaps the contents of this and the given surface bundle. More...
 
Triangulation< 3 > construct () const override
 Returns a triangulation of this 3-manifold, if such a construction has been implemented. More...
 
AbelianGroup homology () const override
 Returns the first homology group of this 3-manifold, if such a routine has been implemented. More...
 
bool isHyperbolic () const override
 Returns whether or not this is a finite-volume hyperbolic manifold. More...
 
std::ostream & writeName (std::ostream &out) const override
 Writes the common name of this 3-manifold as a human-readable string to the given output stream. More...
 
std::ostream & writeTeXName (std::ostream &out) const override
 Writes the common name of this 3-manifold in TeX format to the given output stream. More...
 
std::string name () const
 Returns the common name of this 3-manifold as a human-readable string. More...
 
std::string texName () const
 Returns the common name of this 3-manifold in TeX format. More...
 
std::string structure () const
 Returns details of the structure of this 3-manifold that might not be evident from its common name. More...
 
bool operator< (const Manifold &compare) const
 Determines in a fairly ad-hoc fashion whether this representation of this 3-manifold is "smaller" than the given representation of the given 3-manifold. More...
 
virtual std::ostream & writeStructure (std::ostream &out) const
 Writes details of the structure of this 3-manifold that might not be evident from its common name to the given output stream. More...
 
void writeTextShort (std::ostream &out) const
 Writes a short text representation of this object to the given output stream. More...
 
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 Attributes

static constexpr int S2xS1 = 1
 Represents the orientable 2-sphere bundle over the circle. More...
 
static constexpr int S2xS1_TWISTED = 2
 Represents the non-orientable twisted 2-sphere bundle over the circle. More...
 
static constexpr int RP2xS1 = 3
 Represents the projective plane bundle over the circle. More...
 

Detailed Description

Represents a particularly simple closed surface bundle over the circle.

Only 2-sphere bundles, twisted 2-sphere bundles and projective plane bundles are considered.

All optional Manifold 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 manifold classes.

Constructor & Destructor Documentation

◆ SimpleSurfaceBundle() [1/2]

regina::SimpleSurfaceBundle::SimpleSurfaceBundle ( int  bundleType)
inline

Creates a new surface bundle of the given type.

Parameters
bundleTypethe specific type of surface bundle to represent. This must be one of the 3-manifold constants defined in this class.

◆ SimpleSurfaceBundle() [2/2]

regina::SimpleSurfaceBundle::SimpleSurfaceBundle ( const SimpleSurfaceBundle )
default

Creates a new copy of the given surface bundle.

Member Function Documentation

◆ construct()

Triangulation< 3 > regina::SimpleSurfaceBundle::construct ( ) const
overridevirtual

Returns a triangulation of this 3-manifold, if such a construction has been implemented.

For details of which types of 3-manifolds have implemented this routine, see the class notes for each corresponding subclasses of Manifold.

The default implemention of this routine just throws a NotImplemented exception.

Exceptions
NotImplementedExplicit construction has not yet been implemented for this particular 3-manifold.
FileErrorThe construction needs to be read from file (as opposed to computed on the fly), but the file is inaccessible or its contents cannot be read and parsed correctly. Currently this can only happen for the subclass SnapPeaCensusManifold, which reads its triangulations from the SnapPea census databases that are installed with Regina.
Returns
a triangulation of this 3-manifold, if this construction has been implemented.

Reimplemented from regina::Manifold.

◆ detail()

std::string regina::Output< Manifold , 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::SimpleSurfaceBundle::homology ( ) const
overridevirtual

Returns the first homology group of this 3-manifold, if such a routine has been implemented.

For details of which types of 3-manifolds have implemented this routine, see the class notes for each corresponding subclasses of Manifold.

The default implemention of this routine just throws a NotImplemented exception.

Exceptions
NotImplementedHomology calculation has not yet been implemented for this particular 3-manifold.
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 SnapPeaCensusManifold, which reads its results from the SnapPea census databases that are installed with Regina.
Returns
the first homology group of this 3-manifold, if this functionality has been implemented.

Reimplemented from regina::Manifold.

◆ isHyperbolic()

bool regina::SimpleSurfaceBundle::isHyperbolic ( ) const
inlineoverridevirtual

Returns whether or not this is a finite-volume hyperbolic manifold.

Returns
true if this is a finite-volume hyperbolic manifold, or false if not.

Implements regina::Manifold.

◆ name()

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

Returns the common name of this 3-manifold as a human-readable string.

Returns
the common name of this 3-manifold.

◆ operator!=()

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

Determines whether this and the given surface bundle are of different types (i.e., they represent different 3-manifolds).

Parameters
comparethe surface bundle with which this will be compared.
Returns
true if and only if this and the given surface bundle are of different types.

◆ operator<()

bool regina::Manifold::operator< ( const Manifold compare) const
inherited

Determines in a fairly ad-hoc fashion whether this representation of this 3-manifold is "smaller" than the given representation of the given 3-manifold.

The ordering imposed on 3-manifolds is purely aesthetic on the part of the author, and is subject to change in future versions of Regina.

The ordering also depends on the particular representation of the 3-manifold that is used. As an example, different representations of the same Seifert fibred space might well be ordered differently.

All that this routine really offers is a well-defined way of ordering 3-manifold representations.

Warning
Currently this routine is only implemented in full for closed 3-manifolds. For most classes of bounded 3-manifolds, this routine simply compares the strings returned by name().
Parameters
comparethe 3-manifold representation with which this will be compared.
Returns
true if and only if this is "smaller" than the given 3-manifold representation.

◆ operator=()

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

Sets this to be a copy of the given surface bundle.

Returns
a reference to this surface bundle.

◆ operator==()

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

Determines whether this and the given surface bundle are of the same type (i.e., they represent the same 3-manifold).

Parameters
comparethe surface bundle with which this will be compared.
Returns
true if and only if this and the given surface bundle are of the same type.

◆ str()

std::string regina::Output< Manifold , 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.

◆ structure()

std::string regina::Manifold::structure ( ) const
inherited

Returns details of the structure of this 3-manifold that might not be evident from its common name.

For instance, for an orbit space S³/G this routine might return the full Seifert structure.

This routine may return the empty string if no additional details are deemed necessary.

Returns
a string describing additional structural details.

◆ swap()

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

Swaps the contents of this and the given surface bundle.

Parameters
otherthe surface bundle whose contents should be swapped with this.

◆ texName()

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

Returns the common name of this 3-manifold 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 common name of this 3-manifold in TeX format.

◆ type()

int regina::SimpleSurfaceBundle::type ( ) const
inline

Returns the specific type of surface bundle being represented.

Returns
the type of surface bundle. This will be one of the 3-manifold constants defined in this class.

◆ utf8()

std::string regina::Output< Manifold , 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::SimpleSurfaceBundle::writeName ( std::ostream &  out) const
overridevirtual

Writes the common name of this 3-manifold 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::Manifold.

◆ writeStructure()

std::ostream & regina::Manifold::writeStructure ( std::ostream &  out) const
inlinevirtualinherited

Writes details of the structure of this 3-manifold that might not be evident from its common name to the given output stream.

For instance, for an orbit space S³/G this routine might write the full Seifert structure.

This routine may write nothing if no additional details are deemed necessary. The default implementation of this routine behaves in this way.

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

Reimplemented in regina::SFSpace, and regina::SnapPeaCensusManifold.

◆ writeTeXName()

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

Writes the common name of this 3-manifold 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::Manifold.

◆ writeTextLong()

void regina::Manifold::writeTextLong ( std::ostream &  out) const
inlineinherited

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

Subclasses must not override this routine. They should override writeName() and writeStructure() instead.

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

◆ writeTextShort()

void regina::Manifold::writeTextShort ( std::ostream &  out) const
inlineinherited

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

Subclasses must not override this routine. They should override writeName() instead.

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

Member Data Documentation

◆ RP2xS1

constexpr int regina::SimpleSurfaceBundle::RP2xS1 = 3
staticconstexpr

Represents the projective plane bundle over the circle.

◆ S2xS1

constexpr int regina::SimpleSurfaceBundle::S2xS1 = 1
staticconstexpr

Represents the orientable 2-sphere bundle over the circle.

◆ S2xS1_TWISTED

constexpr int regina::SimpleSurfaceBundle::S2xS1_TWISTED = 2
staticconstexpr

Represents the non-orientable twisted 2-sphere bundle over the circle.


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).