Detailed Description
interface for no symmetry computations
Definition in file compute_symmetry_none.cpp.
#include "compute_symmetry.h"
Go to the source code of this file.
Functions | |
SCIP_Bool | SYMcanComputeSymmetry (void) |
const char * | SYMsymmetryGetName (void) |
const char * | SYMsymmetryGetDesc (void) |
SCIP_RETCODE | SYMcomputeSymmetryGenerators (SCIP *scip, int maxgenerators, SYM_MATRIXDATA *matrixdata, int *nperms, int *nmaxperms, int ***perms, SCIP_Real *log10groupsize) |
Function Documentation
◆ SYMcanComputeSymmetry()
SCIP_Bool SYMcanComputeSymmetry | ( | void | ) |
return whether symmetry can be computed
Definition at line 26 of file compute_symmetry_none.cpp.
References FALSE.
Referenced by computeSymmetryGroup(), determineSymmetry(), and SCIPincludePresolSymmetry().
◆ SYMsymmetryGetName()
const char* SYMsymmetryGetName | ( | void | ) |
return name of external program used to compute generators
Definition at line 32 of file compute_symmetry_none.cpp.
Referenced by SCIPincludePresolSymmetry().
◆ SYMsymmetryGetDesc()
const char* SYMsymmetryGetDesc | ( | void | ) |
return description of external program used to compute generators
Definition at line 38 of file compute_symmetry_none.cpp.
Referenced by SCIPincludePresolSymmetry().
◆ SYMcomputeSymmetryGenerators()
SCIP_RETCODE SYMcomputeSymmetryGenerators | ( | SCIP * | scip, |
int | maxgenerators, | ||
SYM_MATRIXDATA * | matrixdata, | ||
int * | nperms, | ||
int * | nmaxperms, | ||
int *** | perms, | ||
SCIP_Real * | log10groupsize | ||
) |
compute generators of symmetry group
- Parameters
-
scip SCIP pointer maxgenerators maximal number of generators constructed (= 0 if unlimited) matrixdata data for MIP matrix nperms pointer to store number of permutations nmaxperms pointer to store maximal number of permutations (needed for freeing storage) perms pointer to store permutation generators as (nperms x npermvars) matrix log10groupsize pointer to store size of group
Definition at line 44 of file compute_symmetry_none.cpp.
References NULL, and SCIP_OKAY.
Referenced by computeSymmetryGroup().