Regina Calculation Engine
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A utility class used to search for triangulations across one or more 2-manifold census databases. More...
#include <census/dim2census.h>
Public Types | |
typedef bool(* | AcceptTriangulation )(Dim2Triangulation *, void *) |
A routine used to determine whether a particular 2-manifold triangulation should be included in a census. More... | |
Static Public Member Functions | |
static unsigned long | formCensus (NPacket *parent, unsigned nTriangles, NBoolSet orientability, NBoolSet boundary, int nBdryEdges, AcceptTriangulation sieve=0, void *sieveArgs=0) |
Deprecated routine that fills the given packet with all triangulations in a census of 2-manifold triangulations satisfying the given constraints. More... | |
static unsigned long | formPartialCensus (const Dim2EdgePairing *pairing, NPacket *parent, NBoolSet orientability, AcceptTriangulation sieve=0, void *sieveArgs=0) |
Deprecated routine that fills the given packet with all triangulations in a partial census of 2-manifold triangulations satisfying the given constraints. More... | |
A utility class used to search for triangulations across one or more 2-manifold census databases.
typedef bool(* regina::Dim2Census::AcceptTriangulation)(Dim2Triangulation *, void *) |
A routine used to determine whether a particular 2-manifold triangulation should be included in a census.
Routines of this type are used by Dim2Census::formCensus().
The first parameter passed should be a triangulation currently under consideration. The second parameter may contain arbitrary data as passed to Dim2Census::formCensus().
The return value should be true
if the triangulation passed should be included in the census, or false
otherwise.
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Deprecated routine that fills the given packet with all triangulations in a census of 2-manifold triangulations satisfying the given constraints.
Each triangulation in the census will appear as a child of the given packet.
This routine will conduct a census of all valid triangulations containing a given number of triangles. All such triangulations are included in the census up to combinatorial isomorphism; given any isomorphism class, exactly one representative will appear in the census.
The census can be optionally restricted to only include triangulations satisfying further constraints (such as orientability); see the individual parameter descriptions for further details. In particular, parameter sieve can be used to impose arbitrary restrictions that are not hard-coded into this class.
Note that if constraints may be imposed using the hard-coded parameters (such as orientability), it is generally better to do this than to use the arbitrary constraint parameter sieve. Hard-coded parameters will be tested earlier, and some (such as orientability) can be incorporated directly into the census algorithm to give a vast performance increase.
Note that this routine should only be used if the census contains a small enough total number of triangulations to avoid any memory disasters.
parent | the packet beneath which members of the census will be placed. |
nTriangles | the number of triangles in each triangulation in the census. |
orientability | determines whether to include orientable and/or non-orientable triangulations. The set should contain true if orientable triangulations are to be included, and should contain false if non-orientable triangulations are to be included. |
boundary | determines whether to include triangulations with and/or without boundary edges. The set should contain true if triangulations with boundary edges are to be included, and should contain false if triangulations with only internal edges are to be included. |
nBdryEdges | specifies the precise number of boundary edges that should be present in the triangulations produced. If this parameter is negative, it is ignored and no additional restriction is imposed. See the documentation for routine Dim2EdgePairing::findAllPairings() for details regarding this parameter and how it interacts with parameter boundary. |
sieve | an additional constraint function that may be used to exclude certain triangulations from the census. If this parameter is non-zero, each triangulation produced (after passing all other criteria) will be passed through this function. If this function returns true then the triangulation will be included in the census; otherwise it will not. When this function is called, the first (triangulation) argument will be a triangulation under consideration for inclusion in the census. The second argument will be parameter sieveArgs as passed to formCensus(). Parameter sieve may be passed as null (in which case no additional constraint function will be used). |
sieveArgs | the pointer to pass as the final parameter for the function sieve which will be called upon each triangulation found. If sieve is null then sieveArgs will be ignored. |
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static |
Deprecated routine that fills the given packet with all triangulations in a partial census of 2-manifold triangulations satisfying the given constraints.
Each triangulation in the partial census will appear as a child of the given packet.
This routine will conduct a census of all valid 2-manifold triangulations that are modelled by the given triangle edge pairing. All such triangulations are included in the census up to combinatorial isomorphism; given any isomorphism class, exactly one representative will appear in the census.
The census can be optionally restricted to only include triangulations satisfying further constraints (such as orientability); see the individual parameter descriptions for further details. In particular, parameter sieve can be used to impose arbitrary restrictions that are not hard-coded into this class.
Note that if constraints may be imposed using the hard-coded parameters (such as orientability), it is generally better to do this than to use the arbitrary constraint parameter sieve. Hard-coded parameters will be tested earlier, and some (such as orientability) can be incorporated directly into the census algorithm to give a vast performance increase.
Note that this routine should only be used if the partial census contains a small enough total number of triangulations to avoid any memory disasters.
The partial census will run in the current thread. This routine will only return once the partial census is complete.
pairing | the edge pairing that triangulations in this partial census must be modelled by. |
parent | the packet beneath which members of the partial census will be placed. |
orientability | determines whether to include orientable and/or non-orientable triangulations. The set should contain true if orientable triangulations are to be included, and should contain false if non-orientable triangulations are to be included. |
sieve | an additional constraint function that may be used to exclude certain triangulations from the census. If this parameter is non-zero, each triangulation produced (after passing all other criteria) will be passed through this function. If this function returns true then the triangulation will be included in the census; otherwise it will not. When this function is called, the first (triangulation) argument will be a triangulation under consideration for inclusion in the census. The second argument will be parameter sieveArgs as passed to formPartialCensus(). Parameter sieve may be passed as null (in which case no additional constraint function will be used). |
sieveArgs | the pointer to pass as the final parameter for the function sieve which will be called upon each triangulation found. If sieve is null then sieveArgs will be ignored. |