Detailed Description

Constraint handler for linear constraints in their most general form, \(lhs <= a^T x <= rhs\).

Author: Tobias Achterberg; Timo Berthold; Marc Pfetsch; Kati Wolter; Michael Winkler; Gerald Gamrath; Domenico Salvagnin

Linear constraints are separated with a high priority, because they are easy to separate. Instead of using the global cut pool, the same effect can be implemented by adding linear constraints to the root node, such that they are separated each time, the linear constraints are separated. A constraint handler, which generates linear constraints in this way should have a lower separation priority than the linear constraint handler, and it should have a separation frequency that is a multiple of the frequency of the linear constraint handler. In this way, it can be avoided to separate the same cut twice, because if a separation run of the handler is always preceded by a separation of the linear constraints, the priorily added constraints are always satisfied.

Linear constraints are enforced and checked with a very low priority. Checking of (many) linear constraints is much more involved than checking the solution values for integrality. Because we are separating the linear constraints quite often, it is only necessary to enforce them for integral solutions. A constraint handler which generates pool cuts in its enforcing method should have an enforcing priority smaller than that of the linear constraint handler to avoid regenerating constraints which already exist.

Definition in file cons_linear.c.

#include <assert.h>
#include <string.h>
#include <limits.h>
#include <ctype.h>
#include "scip/cons_linear.h"
#include "scip/cons_knapsack.h"
#include "scip/cons_quadratic.h"
#include "scip/cons_nonlinear.h"
#include "scip/pub_misc.h"
#include "scip/debug.h"

Go to the source code of this file.

Macros
#define	CONSHDLR_NAME "linear"

#define	CONSHDLR_DESC "linear constraints of the form lhs <= a^T x <= rhs"

#define	CONSHDLR_SEPAPRIORITY +100000

#define	CONSHDLR_ENFOPRIORITY -1000000

#define	CONSHDLR_CHECKPRIORITY -1000000

#define	CONSHDLR_SEPAFREQ 0

#define	CONSHDLR_PROPFREQ 1

#define	CONSHDLR_EAGERFREQ 100

#define	CONSHDLR_MAXPREROUNDS -1

#define	CONSHDLR_DELAYSEPA FALSE

#define	CONSHDLR_DELAYPROP FALSE

#define	CONSHDLR_NEEDSCONS TRUE

#define	CONSHDLR_PRESOLTIMING (SCIP_PRESOLTIMING_FAST \| SCIP_PRESOLTIMING_EXHAUSTIVE)

#define	CONSHDLR_PROP_TIMING SCIP_PROPTIMING_BEFORELP

#define	EVENTHDLR_NAME "linear"

#define	EVENTHDLR_DESC "bound change event handler for linear constraints"

#define	CONFLICTHDLR_NAME "linear"

#define	CONFLICTHDLR_DESC "conflict handler creating linear constraints"

#define	CONFLICTHDLR_PRIORITY -1000000

#define	DEFAULT_TIGHTENBOUNDSFREQ 1

#define	DEFAULT_MAXROUNDS 5

#define	DEFAULT_MAXROUNDSROOT -1

#define	DEFAULT_MAXSEPACUTS 50

#define	DEFAULT_MAXSEPACUTSROOT 200

#define	DEFAULT_PRESOLPAIRWISE TRUE

#define	DEFAULT_PRESOLUSEHASHING TRUE

#define	DEFAULT_NMINCOMPARISONS 200000

#define	DEFAULT_MINGAINPERNMINCOMP 1e-06

#define	DEFAULT_SORTVARS TRUE

#define	DEFAULT_CHECKRELMAXABS FALSE

#define	DEFAULT_MAXAGGRNORMSCALE 0.0

#define	DEFAULT_MAXEASYACTIVITYDELTA 1e6

#define	DEFAULT_MAXCARDBOUNDDIST 0.0

#define	DEFAULT_SEPARATEALL FALSE

#define	DEFAULT_AGGREGATEVARIABLES TRUE

#define	DEFAULT_SIMPLIFYINEQUALITIES TRUE

#define	DEFAULT_DUALPRESOLVING TRUE

#define	DEFAULT_SINGLETONSTUFFING TRUE

#define	DEFAULT_SINGLEVARSTUFFING FALSE

#define	DEFAULT_DETECTCUTOFFBOUND TRUE

#define	DEFAULT_DETECTLOWERBOUND TRUE

#define	DEFAULT_DETECTPARTIALOBJECTIVE TRUE

#define	DEFAULT_RANGEDROWPROPAGATION TRUE

#define	DEFAULT_RANGEDROWARTCONS TRUE

#define	DEFAULT_RANGEDROWMAXDEPTH INT_MAX

#define	DEFAULT_RANGEDROWFREQ 1

#define	DEFAULT_MULTAGGRREMOVE FALSE

#define	MAXDNOM 10000LL

#define	MAXSCALEDCOEF 1e+03

#define	MAXSCALEDCOEFINTEGER 1e+05

#define	MAXVALRECOMP 1e+06

#define	MINVALRECOMP 1e-05

#define	QUADCONSUPGD_PRIORITY 1000000

#define	NONLINCONSUPGD_PRIORITY 1000000

#define	checkMaxActivityDelta(scip, consdata)

#define	MAXTIGHTENROUNDS 10

#define	MAX_CLIQUE_NONZEROS_PER_CONS 1000000

#define	MAXMULTIAGGRQUOTIENT 1e+03

#define	BINWEIGHT 1

#define	INTWEIGHT 4

#define	CONTWEIGHT 8

#define	MAXCONSPRESOLROUNDS 10

Typedefs
typedef enum Proprule	PROPRULE

typedef struct InferInfo	INFERINFO

Enumerations
enum	Proprule { PROPRULE_1, PROPRULE_2, PROPRULE_3, PROPRULE_4, PROPRULE_INVALID, PROPRULE_INVALID = 0, PROPRULE_1 = 1, PROPRULE_2 = 2, PROPRULE_3 = 3, PROPRULE_4 = 4, PROPRULE_1_CORETIMES = 1, PROPRULE_2_EDGEFINDING = 2, PROPRULE_3_TTEF = 3, PROPRULE_1_RHS = 1, PROPRULE_1_LHS = 2, PROPRULE_1_RANGEDROW = 3, PROPRULE_INVALID = 0, PROPRULE_1, PROPRULE_2, PROPRULE_3, PROPRULE_4, PROPRULE_INVALID, PROPRULE_1, PROPRULE_2, PROPRULE_3, PROPRULE_4, PROPRULE_0, PROPRULE_1, PROPRULE_INTLB, PROPRULE_INTUB, PROPRULE_INVALID }

Functions
static INFERINFO	intToInferInfo (int i)

static int	inferInfoToInt (INFERINFO inferinfo)

static int	inferInfoGetProprule (INFERINFO inferinfo)

static int	inferInfoGetPos (INFERINFO inferinfo)

static INFERINFO	getInferInfo (PROPRULE proprule, int pos)

static int	getInferInt (PROPRULE proprule, int pos)

static SCIP_RETCODE	conshdlrdataEnsureLinconsupgradesSize (SCIP scip, SCIP_CONSHDLRDATA conshdlrdata, int num)

static SCIP_RETCODE	consdataEnsureVarsSize (SCIP scip, SCIP_CONSDATA consdata, int num)

static SCIP_RETCODE	linconsupgradeCreate (SCIP scip, SCIP_LINCONSUPGRADE linconsupgrade, SCIP_DECL_LINCONSUPGD((linconsupgd)), int priority)

static void	linconsupgradeFree (SCIP scip, SCIP_LINCONSUPGRADE *linconsupgrade)

static SCIP_RETCODE	conshdlrdataCreate (SCIP scip, SCIP_CONSHDLRDATA conshdlrdata, SCIP_EVENTHDLR eventhdlr)

static void	conshdlrdataFree (SCIP scip, SCIP_CONSHDLRDATA *conshdlrdata)

static SCIP_Bool	conshdlrdataHasUpgrade (SCIP scip, SCIP_CONSHDLRDATA conshdlrdata, SCIP_DECL_LINCONSUPGD((linconsupgd)), const char conshdlrname)

static SCIP_RETCODE	conshdlrdataIncludeUpgrade (SCIP scip, SCIP_CONSHDLRDATA conshdlrdata, SCIP_LINCONSUPGRADE *linconsupgrade)

static SCIP_RETCODE	lockRounding (SCIP scip, SCIP_CONS cons, SCIP_VAR *var, SCIP_Real val)

static SCIP_RETCODE	unlockRounding (SCIP scip, SCIP_CONS cons, SCIP_VAR *var, SCIP_Real val)

static SCIP_RETCODE	consCatchEvent (SCIP scip, SCIP_CONS cons, SCIP_EVENTHDLR *eventhdlr, int pos)

static SCIP_RETCODE	consDropEvent (SCIP scip, SCIP_CONS cons, SCIP_EVENTHDLR *eventhdlr, int pos)

static SCIP_RETCODE	consCatchAllEvents (SCIP scip, SCIP_CONS cons, SCIP_EVENTHDLR *eventhdlr)

static SCIP_RETCODE	consDropAllEvents (SCIP scip, SCIP_CONS cons, SCIP_EVENTHDLR *eventhdlr)

static SCIP_RETCODE	consdataCreate (SCIP scip, SCIP_CONSDATA consdata, int nvars, SCIP_VAR vars, SCIP_Real vals, SCIP_Real lhs, SCIP_Real rhs)

static SCIP_RETCODE	consdataFree (SCIP scip, SCIP_CONSDATA *consdata)

static SCIP_RETCODE	consdataPrint (SCIP scip, SCIP_CONSDATA consdata, FILE *file)

static SCIP_RETCODE	consPrintConsSol (SCIP scip, SCIP_CONS cons, SCIP_SOL sol, FILE file)

static void	consdataInvalidateActivities (SCIP_CONSDATA *consdata)

static SCIP_Real	consdataComputePseudoActivity (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataRecomputeMinactivity (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataRecomputeMaxactivity (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataRecomputeGlbMinactivity (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataRecomputeGlbMaxactivity (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataCalcMaxAbsval (SCIP_CONSDATA *consdata)

static void	consdataCalcMinAbsval (SCIP_CONSDATA *consdata)

static void	consdataCheckNonbinvar (SCIP_CONSDATA *consdata)

static void	consdataRecomputeMaxActivityDelta (SCIP scip, SCIP_CONSDATA consdata)

static void	consdataUpdateActivities (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real oldbound, SCIP_Real newbound, SCIP_Real val, SCIP_BOUNDTYPE boundtype, SCIP_Bool global, SCIP_Bool checkreliability)

static void	consdataUpdateActivitiesLb (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real oldlb, SCIP_Real newlb, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateActivitiesUb (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real oldub, SCIP_Real newub, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateActivitiesGlbLb (SCIP scip, SCIP_CONSDATA consdata, SCIP_Real oldlb, SCIP_Real newlb, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateActivitiesGlbUb (SCIP scip, SCIP_CONSDATA consdata, SCIP_Real oldub, SCIP_Real newub, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateAddCoef (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateDelCoef (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real val, SCIP_Bool checkreliability)

static void	consdataUpdateChgCoef (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR *var, SCIP_Real oldval, SCIP_Real newval, SCIP_Bool checkreliability)

static SCIP_Real	consdataGetMaxAbsval (SCIP_CONSDATA *consdata)

static SCIP_Real	consdataGetMinAbsval (SCIP_CONSDATA *consdata)

static void	consdataCalcActivities (SCIP scip, SCIP_CONSDATA consdata)

static void	getMinActivity (SCIP scip, SCIP_CONSDATA consdata, int posinf, int neginf, int poshuge, int neghuge, SCIP_Real delta, SCIP_Bool global, SCIP_Bool goodrelax, SCIP_Real minactivity, SCIP_Bool isrelax, SCIP_Bool *issettoinfinity)

static void	getMaxActivity (SCIP scip, SCIP_CONSDATA consdata, int posinf, int neginf, int poshuge, int neghuge, SCIP_Real delta, SCIP_Bool global, SCIP_Bool goodrelax, SCIP_Real maxactivity, SCIP_Bool isrelax, SCIP_Bool *issettoinfinity)

static void	consdataGetActivityBounds (SCIP scip, SCIP_CONSDATA consdata, SCIP_Bool goodrelax, SCIP_Real minactivity, SCIP_Real maxactivity, SCIP_Bool minisrelax, SCIP_Bool maxisrelax)

static void	consdataGetReliableResidualActivity (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR cancelvar, SCIP_Real resactivity, SCIP_Bool isminresact, SCIP_Bool useglobalbounds)

static void	consdataGetActivityResiduals (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR var, SCIP_Real val, SCIP_Bool goodrelax, SCIP_Real minresactivity, SCIP_Real maxresactivity, SCIP_Bool minisrelax, SCIP_Bool maxisrelax, SCIP_Bool isminsettoinfinity, SCIP_Bool *ismaxsettoinfinity)

static void	consdataGetGlbActivityBounds (SCIP scip, SCIP_CONSDATA consdata, SCIP_Bool goodrelax, SCIP_Real glbminactivity, SCIP_Real glbmaxactivity, SCIP_Bool minisrelax, SCIP_Bool maxisrelax, SCIP_Bool isminsettoinfinity, SCIP_Bool ismaxsettoinfinity)

static void	consdataGetGlbActivityResiduals (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR var, SCIP_Real val, SCIP_Bool goodrelax, SCIP_Real minresactivity, SCIP_Real maxresactivity, SCIP_Bool minisrelax, SCIP_Bool maxisrelax, SCIP_Bool isminsettoinfinity, SCIP_Bool *ismaxsettoinfinity)

static SCIP_Real	consdataGetActivity (SCIP scip, SCIP_CONSDATA consdata, SCIP_SOL *sol)

static SCIP_Real	consdataGetFeasibility (SCIP scip, SCIP_CONSDATA consdata, SCIP_SOL *sol)

static void	consdataUpdateSignatures (SCIP_CONSDATA *consdata, int pos)

static void	consdataCalcSignatures (SCIP_CONSDATA *consdata)

static	SCIP_DECL_SORTINDCOMP (consdataCompVar)

static void	permSortConsdata (SCIP_CONSDATA consdata, int perm, int nvars)

static SCIP_RETCODE	consdataSort (SCIP scip, SCIP_CONSDATA consdata)

static SCIP_RETCODE	chgLhs (SCIP scip, SCIP_CONS cons, SCIP_Real lhs)

static SCIP_RETCODE	chgRhs (SCIP scip, SCIP_CONS cons, SCIP_Real rhs)

static SCIP_RETCODE	addCoef (SCIP scip, SCIP_CONS cons, SCIP_VAR *var, SCIP_Real val)

static SCIP_RETCODE	delCoefPos (SCIP scip, SCIP_CONS cons, int pos)

static SCIP_RETCODE	chgCoefPos (SCIP scip, SCIP_CONS cons, int pos, SCIP_Real newval)

static SCIP_RETCODE	scaleCons (SCIP scip, SCIP_CONS cons, SCIP_Real scalar)

static SCIP_RETCODE	performVarDeletions (SCIP scip, SCIP_CONSHDLR conshdlr, SCIP_CONS **conss, int nconss)

static SCIP_RETCODE	normalizeCons (SCIP scip, SCIP_CONS cons)

static SCIP_RETCODE	mergeMultiples (SCIP scip, SCIP_CONS cons)

static SCIP_RETCODE	applyFixings (SCIP scip, SCIP_CONS cons, SCIP_Bool *infeasible)

static SCIP_RETCODE	addConflictBounds (SCIP scip, SCIP_CONS cons, SCIP_VAR infervar, SCIP_BDCHGIDX bdchgidx, int inferpos, SCIP_Bool reasonisrhs)

static SCIP_RETCODE	addConflictFixedVars (SCIP scip, SCIP_CONS cons, SCIP_VAR infervar, SCIP_BDCHGIDX bdchgidx, int inferpos)

static SCIP_RETCODE	addConflictReasonVars (SCIP scip, SCIP_VAR vars, int nvars, SCIP_VAR var, SCIP_Real bound)

static SCIP_RETCODE	resolvePropagation (SCIP scip, SCIP_CONS cons, SCIP_VAR infervar, INFERINFO inferinfo, SCIP_BOUNDTYPE boundtype, SCIP_BDCHGIDX bdchgidx, SCIP_RESULT *result)

static SCIP_RETCODE	analyzeConflict (SCIP scip, SCIP_CONS cons, SCIP_Bool reasonisrhs)

static SCIP_Bool	canTightenBounds (SCIP scip, SCIP_CONS cons)

static SCIP_RETCODE	tightenVarUb (SCIP scip, SCIP_CONS cons, int pos, PROPRULE proprule, SCIP_Real newub, SCIP_Real oldub, SCIP_Bool cutoff, int nchgbds, SCIP_Bool force)

static SCIP_RETCODE	tightenVarLb (SCIP scip, SCIP_CONS cons, int pos, PROPRULE proprule, SCIP_Real newlb, SCIP_Real oldlb, SCIP_Bool cutoff, int nchgbds, SCIP_Bool force)

static SCIP_RETCODE	tightenVarBoundsEasy (SCIP scip, SCIP_CONS cons, int pos, SCIP_Bool cutoff, int nchgbds, SCIP_Bool force)

static SCIP_RETCODE	analyzeConflictRangedRow (SCIP scip, SCIP_CONS cons, SCIP_VAR *vars, int nvars, SCIP_VAR var, SCIP_Real bound)

static SCIP_RETCODE	rangedRowPropagation (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int nfixedvars, int nchgbds, int naddconss)

static SCIP_RETCODE	tightenVarBounds (SCIP scip, SCIP_CONS cons, int pos, SCIP_Bool cutoff, int nchgbds, SCIP_Bool force)

static SCIP_RETCODE	tightenBounds (SCIP scip, SCIP_CONS cons, SCIP_Real maxeasyactivitydelta, SCIP_Bool sortvars, SCIP_Bool cutoff, int nchgbds)

static SCIP_RETCODE	checkCons (SCIP scip, SCIP_CONS cons, SCIP_SOL sol, SCIP_Bool checklprows, SCIP_Bool checkrelmaxabs, SCIP_Bool violated)

static SCIP_RETCODE	createRow (SCIP scip, SCIP_CONS cons)

static SCIP_RETCODE	addRelaxation (SCIP scip, SCIP_CONS cons, SCIP_Bool *cutoff)

static SCIP_RETCODE	separateCons (SCIP scip, SCIP_CONS cons, SCIP_CONSHDLRDATA conshdlrdata, SCIP_SOL sol, SCIP_Bool separatecards, SCIP_Bool separateall, int ncuts, SCIP_Bool cutoff)

static SCIP_RETCODE	propagateCons (SCIP scip, SCIP_CONS cons, SCIP_Bool tightenbounds, SCIP_Bool rangedrowpropagation, SCIP_Real maxeasyactivitydelta, SCIP_Bool sortvars, SCIP_Bool cutoff, int nchgbds)

static SCIP_RETCODE	fixVariables (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int nfixedvars)

static SCIP_RETCODE	extractCliques (SCIP scip, SCIP_CONS cons, SCIP_Real maxeasyactivitydelta, SCIP_Bool sortvars, int nfixedvars, int nchgbds, SCIP_Bool *cutoff)

static SCIP_RETCODE	tightenSides (SCIP scip, SCIP_CONS cons, int *nchgsides)

static SCIP_RETCODE	consdataTightenCoefs (SCIP scip, SCIP_CONS cons, int nchgcoefs, int nchgsides)

static SCIP_RETCODE	convertUnaryEquality (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int nfixedvars, int *ndelconss)

static SCIP_RETCODE	convertBinaryEquality (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int naggrvars, int *ndelconss)

static void	getNewSidesAfterAggregation (SCIP scip, SCIP_CONSDATA consdata, SCIP_VAR slackvar, SCIP_Real slackcoef, SCIP_Real newlhs, SCIP_Real *newrhs)

static SCIP_RETCODE	convertLongEquality (SCIP scip, SCIP_CONSHDLRDATA conshdlrdata, SCIP_CONS cons, SCIP_Bool cutoff, int naggrvars, int ndelconss)

static SCIP_Bool	checkEqualObjective (SCIP scip, SCIP_CONSDATA consdata, SCIP_Real scale, SCIP_Real offset)

static SCIP_RETCODE	checkPartialObjective (SCIP scip, SCIP_CONS cons, SCIP_CONSHDLRDATA *conshdlrdata)

static SCIP_RETCODE	updateCutoffbound (SCIP scip, SCIP_CONS cons, SCIP_Real primalbound)

static SCIP_RETCODE	checkParallelObjective (SCIP scip, SCIP_CONS cons, SCIP_CONSHDLRDATA *conshdlrdata)

static SCIP_RETCODE	convertEquality (SCIP scip, SCIP_CONS cons, SCIP_CONSHDLRDATA conshdlrdata, SCIP_Bool cutoff, int nfixedvars, int naggrvars, int *ndelconss)

static SCIP_Bool	consdataIsResidualIntegral (SCIP scip, SCIP_CONSDATA consdata, int pos, SCIP_Real val)

static void	calculateMinvalAndMaxval (SCIP scip, SCIP_Real side, SCIP_Real val, SCIP_Real minresactivity, SCIP_Real maxresactivity, SCIP_Real minval, SCIP_Real *maxval)

static SCIP_RETCODE	dualPresolve (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int nfixedvars, int naggrvars, int ndelconss)

static int	getVarWeight (SCIP_VAR *var)

static SCIP_RETCODE	aggregateVariables (SCIP scip, SCIP_CONS cons, SCIP_Bool cutoff, int nfixedvars, int naggrvars, int ndelconss)

static	SCIP_DECL_SORTINDCOMP (consdataCompSim)

static SCIP_RETCODE	rangedRowSimplify (SCIP scip, SCIP_CONS cons, int nchgcoefs, int nchgsides)

static SCIP_RETCODE	simplifyInequalities (SCIP scip, SCIP_CONS cons, int nchgcoefs, int nchgsides)

static SCIP_RETCODE	aggregateConstraints (SCIP scip, SCIP_CONS cons0, SCIP_CONS cons1, int commonidx0, int commonidx1, int diffidx0minus1, int diffidx1minus0, int nvarscommon, int commonidxweight, int diffidx0minus1weight, int diffidx1minus0weight, SCIP_Real maxaggrnormscale, int nchgcoefs, SCIP_Bool *aggregated)

static	SCIP_DECL_HASHGETKEY (hashGetKeyLinearcons)

static	SCIP_DECL_HASHKEYEQ (hashKeyEqLinearcons)

static	SCIP_DECL_HASHKEYVAL (hashKeyValLinearcons)

static unsigned int	getParallelConsKey (SCIP_CONS *cons)

static SCIP_RETCODE	retrieveParallelConstraints (SCIP_HASHTABLE hashtable, SCIP_CONS querycons, SCIP_CONS parallelconss, int nparallelconss)

static SCIP_RETCODE	detectRedundantConstraints (SCIP scip, BMS_BLKMEM blkmem, SCIP_CONS *conss, int nconss, int firstchange, SCIP_Bool cutoff, int ndelconss, int *nchgsides)

static SCIP_RETCODE	preprocessConstraintPairs (SCIP scip, SCIP_CONS conss, int firstchange, int chkind, SCIP_Real maxaggrnormscale, SCIP_Bool cutoff, int ndelconss, int nchgsides, int *nchgcoefs)

static SCIP_RETCODE	presolStuffing (SCIP scip, SCIP_CONS cons, SCIP_Bool singletonstuffing, SCIP_Bool singlevarstuffing, SCIP_Bool cutoff, int nfixedvars, int *nchgbds)

static SCIP_RETCODE	fullDualPresolve (SCIP scip, SCIP_CONS conss, int nconss, SCIP_Bool cutoff, int *nchgbds)

static SCIP_RETCODE	enforceConstraint (SCIP scip, SCIP_CONSHDLR conshdlr, SCIP_CONS *conss, int nconss, int nusefulconss, SCIP_SOL sol, SCIP_RESULT *result)

static	SCIP_DECL_CONSHDLRCOPY (conshdlrCopyLinear)

static	SCIP_DECL_CONSFREE (consFreeLinear)

static	SCIP_DECL_CONSINIT (consInitLinear)

static	SCIP_DECL_CONSEXIT (consExitLinear)

static SCIP_Bool	isRangedRow (SCIP *scip, SCIP_Real lhs, SCIP_Real rhs)

static SCIP_Bool	isFiniteNonnegativeIntegral (SCIP *scip, SCIP_Real x)

SCIP_RETCODE	SCIPclassifyConstraintTypesLinear (SCIP scip, SCIP_LINCONSSTATS linconsstats)

static	SCIP_DECL_CONSEXITPRE (consExitpreLinear)

static	SCIP_DECL_CONSEXITSOL (consExitsolLinear)

static	SCIP_DECL_CONSDEACTIVE (consDeactiveLinear)

static	SCIP_DECL_CONSDELETE (consDeleteLinear)

static	SCIP_DECL_CONSTRANS (consTransLinear)

static	SCIP_DECL_CONSINITLP (consInitlpLinear)

static	SCIP_DECL_CONSSEPALP (consSepalpLinear)

static	SCIP_DECL_CONSSEPASOL (consSepasolLinear)

static	SCIP_DECL_CONSENFOLP (consEnfolpLinear)

static	SCIP_DECL_CONSENFORELAX (consEnforelaxLinear)

static	SCIP_DECL_CONSENFOPS (consEnfopsLinear)

static	SCIP_DECL_CONSCHECK (consCheckLinear)

static	SCIP_DECL_CONSPROP (consPropLinear)

static	SCIP_DECL_CONSPRESOL (consPresolLinear)

static	SCIP_DECL_CONSRESPROP (consRespropLinear)

static	SCIP_DECL_CONSLOCK (consLockLinear)

static	SCIP_DECL_CONSDELVARS (consDelvarsLinear)

static	SCIP_DECL_CONSPRINT (consPrintLinear)

static	SCIP_DECL_CONSCOPY (consCopyLinear)

static SCIP_RETCODE	findOperators (const char str, char firstoperator, char secondoperator, SCIP_Bool success)

static	SCIP_DECL_CONSPARSE (consParseLinear)

static	SCIP_DECL_CONSGETVARS (consGetVarsLinear)

static	SCIP_DECL_CONSGETNVARS (consGetNVarsLinear)

static	SCIP_DECL_EVENTEXEC (eventExecLinear)

static	SCIP_DECL_CONFLICTEXEC (conflictExecLinear)

static	SCIP_DECL_QUADCONSUPGD (upgradeConsQuadratic)

static	SCIP_DECL_NONLINCONSUPGD (upgradeConsNonlinear)

SCIP_RETCODE	SCIPincludeConshdlrLinear (SCIP *scip)

SCIP_RETCODE	SCIPincludeLinconsUpgrade (SCIP scip, SCIP_DECL_LINCONSUPGD((linconsupgd)), int priority, const char *conshdlrname)

SCIP_RETCODE	SCIPcreateConsLinear (SCIP scip, SCIP_CONS cons, const char name, int nvars, SCIP_VAR *vars, SCIP_Real vals, SCIP_Real lhs, SCIP_Real rhs, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode)

SCIP_RETCODE	SCIPcreateConsBasicLinear (SCIP scip, SCIP_CONS cons, const char name, int nvars, SCIP_VAR *vars, SCIP_Real vals, SCIP_Real lhs, SCIP_Real rhs)

SCIP_RETCODE	SCIPcopyConsLinear (SCIP scip, SCIP_CONS cons, SCIP sourcescip, const char name, int nvars, SCIP_VAR sourcevars, SCIP_Real sourcecoefs, SCIP_Real lhs, SCIP_Real rhs, SCIP_HASHMAP varmap, SCIP_HASHMAP consmap, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode, SCIP_Bool global, SCIP_Bool *valid)

SCIP_RETCODE	SCIPaddCoefLinear (SCIP scip, SCIP_CONS cons, SCIP_VAR *var, SCIP_Real val)

SCIP_RETCODE	SCIPchgCoefLinear (SCIP scip, SCIP_CONS cons, SCIP_VAR *var, SCIP_Real val)

SCIP_RETCODE	SCIPdelCoefLinear (SCIP scip, SCIP_CONS cons, SCIP_VAR *var)

SCIP_Real	SCIPgetLhsLinear (SCIP scip, SCIP_CONS cons)

SCIP_Real	SCIPgetRhsLinear (SCIP scip, SCIP_CONS cons)

SCIP_RETCODE	SCIPchgLhsLinear (SCIP scip, SCIP_CONS cons, SCIP_Real lhs)

SCIP_RETCODE	SCIPchgRhsLinear (SCIP scip, SCIP_CONS cons, SCIP_Real rhs)

int	SCIPgetNVarsLinear (SCIP scip, SCIP_CONS cons)

SCIP_VAR **	SCIPgetVarsLinear (SCIP scip, SCIP_CONS cons)

SCIP_Real *	SCIPgetValsLinear (SCIP scip, SCIP_CONS cons)

SCIP_Real	SCIPgetActivityLinear (SCIP scip, SCIP_CONS cons, SCIP_SOL *sol)

SCIP_Real	SCIPgetFeasibilityLinear (SCIP scip, SCIP_CONS cons, SCIP_SOL *sol)

SCIP_Real	SCIPgetDualsolLinear (SCIP scip, SCIP_CONS cons)

SCIP_Real	SCIPgetDualfarkasLinear (SCIP scip, SCIP_CONS cons)

SCIP_ROW *	SCIPgetRowLinear (SCIP scip, SCIP_CONS cons)

SCIP_RETCODE	SCIPupgradeConsLinear (SCIP scip, SCIP_CONS cons, SCIP_CONS **upgdcons)

Macro Definition Documentation

◆ CONSHDLR_NAME

#define CONSHDLR_NAME "linear"

Definition at line 61 of file cons_linear.c.

Referenced by isFiniteNonnegativeIntegral(), SCIP_DECL_CONSCHECK(), SCIP_DECL_CONSEXITSOL(), SCIP_DECL_CONSHDLRCOPY(), SCIPaddCoefLinear(), SCIPchgLhsLinear(), SCIPchgRhsLinear(), SCIPcopyConsLinear(), SCIPcreateConsLinear(), and SCIPdelCoefLinear().

◆ CONSHDLR_DESC

#define CONSHDLR_DESC "linear constraints of the form lhs <= a^T x <= rhs"

Definition at line 62 of file cons_linear.c.

◆ CONSHDLR_SEPAPRIORITY

#define CONSHDLR_SEPAPRIORITY +100000

priority of the constraint handler for separation

Definition at line 63 of file cons_linear.c.

◆ CONSHDLR_ENFOPRIORITY

#define CONSHDLR_ENFOPRIORITY -1000000

priority of the constraint handler for constraint enforcing

Definition at line 64 of file cons_linear.c.

◆ CONSHDLR_CHECKPRIORITY

#define CONSHDLR_CHECKPRIORITY -1000000

priority of the constraint handler for checking feasibility

Definition at line 65 of file cons_linear.c.

◆ CONSHDLR_SEPAFREQ

#define CONSHDLR_SEPAFREQ 0

frequency for separating cuts; zero means to separate only in the root node

Definition at line 66 of file cons_linear.c.

◆ CONSHDLR_PROPFREQ

#define CONSHDLR_PROPFREQ 1

frequency for propagating domains; zero means only preprocessing propagation

Definition at line 67 of file cons_linear.c.

◆ CONSHDLR_EAGERFREQ

#define CONSHDLR_EAGERFREQ 100

frequency for using all instead of only the useful constraints in separation, propagation and enforcement, -1 for no eager evaluations, 0 for first only

Definition at line 68 of file cons_linear.c.

◆ CONSHDLR_MAXPREROUNDS

#define CONSHDLR_MAXPREROUNDS -1

maximal number of presolving rounds the constraint handler participates in (-1: no limit)

Definition at line 71 of file cons_linear.c.

◆ CONSHDLR_DELAYSEPA

#define CONSHDLR_DELAYSEPA FALSE

should separation method be delayed, if other separators found cuts?

Definition at line 72 of file cons_linear.c.

◆ CONSHDLR_DELAYPROP

#define CONSHDLR_DELAYPROP FALSE

should propagation method be delayed, if other propagators found reductions?

Definition at line 73 of file cons_linear.c.

◆ CONSHDLR_NEEDSCONS

#define CONSHDLR_NEEDSCONS TRUE

should the constraint handler be skipped, if no constraints are available?

Definition at line 74 of file cons_linear.c.

◆ CONSHDLR_PRESOLTIMING

#define CONSHDLR_PRESOLTIMING (SCIP_PRESOLTIMING_FAST | SCIP_PRESOLTIMING_EXHAUSTIVE)

presolving timing of the constraint handler (fast, medium, or exhaustive)

Definition at line 76 of file cons_linear.c.

◆ CONSHDLR_PROP_TIMING

#define CONSHDLR_PROP_TIMING SCIP_PROPTIMING_BEFORELP

Definition at line 77 of file cons_linear.c.

◆ EVENTHDLR_NAME

#define EVENTHDLR_NAME "linear"

Definition at line 79 of file cons_linear.c.

Referenced by SCIP_DECL_CONSGETNVARS(), and SCIP_DECL_NONLINCONSUPGD().

◆ EVENTHDLR_DESC

#define EVENTHDLR_DESC "bound change event handler for linear constraints"

Definition at line 80 of file cons_linear.c.

Referenced by SCIP_DECL_NONLINCONSUPGD().

◆ CONFLICTHDLR_NAME

#define CONFLICTHDLR_NAME "linear"

Definition at line 82 of file cons_linear.c.

Referenced by SCIP_DECL_NONLINCONSUPGD().

◆ CONFLICTHDLR_DESC

#define CONFLICTHDLR_DESC "conflict handler creating linear constraints"

Definition at line 83 of file cons_linear.c.

Referenced by SCIP_DECL_NONLINCONSUPGD().

◆ CONFLICTHDLR_PRIORITY

#define CONFLICTHDLR_PRIORITY -1000000

Definition at line 84 of file cons_linear.c.

Referenced by SCIP_DECL_NONLINCONSUPGD().

◆ DEFAULT_TIGHTENBOUNDSFREQ

#define DEFAULT_TIGHTENBOUNDSFREQ 1

multiplier on propagation frequency, how often the bounds are tightened

Definition at line 86 of file cons_linear.c.

◆ DEFAULT_MAXROUNDS

#define DEFAULT_MAXROUNDS 5

maximal number of separation rounds per node (-1: unlimited)

Definition at line 87 of file cons_linear.c.

◆ DEFAULT_MAXROUNDSROOT

#define DEFAULT_MAXROUNDSROOT -1

maximal number of separation rounds in the root node (-1: unlimited)

Definition at line 88 of file cons_linear.c.

◆ DEFAULT_MAXSEPACUTS

#define DEFAULT_MAXSEPACUTS 50

maximal number of cuts separated per separation round

Definition at line 89 of file cons_linear.c.

◆ DEFAULT_MAXSEPACUTSROOT

#define DEFAULT_MAXSEPACUTSROOT 200

maximal number of cuts separated per separation round in root node

Definition at line 90 of file cons_linear.c.

◆ DEFAULT_PRESOLPAIRWISE

#define DEFAULT_PRESOLPAIRWISE TRUE

should pairwise constraint comparison be performed in presolving?

Definition at line 91 of file cons_linear.c.

◆ DEFAULT_PRESOLUSEHASHING

#define DEFAULT_PRESOLUSEHASHING TRUE

should hash table be used for detecting redundant constraints in advance

Definition at line 92 of file cons_linear.c.

◆ DEFAULT_NMINCOMPARISONS

#define DEFAULT_NMINCOMPARISONS 200000

number for minimal pairwise presolving comparisons

Definition at line 93 of file cons_linear.c.

◆ DEFAULT_MINGAINPERNMINCOMP

#define DEFAULT_MINGAINPERNMINCOMP 1e-06

minimal gain per minimal pairwise presolving comparisons to repeat pairwise comparison round

Definition at line 94 of file cons_linear.c.

◆ DEFAULT_SORTVARS

#define DEFAULT_SORTVARS TRUE

should variables be sorted after presolve w.r.t their coefficient absolute for faster propagation?

Definition at line 97 of file cons_linear.c.

◆ DEFAULT_CHECKRELMAXABS

#define DEFAULT_CHECKRELMAXABS FALSE

should the violation for a constraint with side 0.0 be checked relative to 1.0 (FALSE) or to the maximum absolute value in the activity (TRUE)?

Definition at line 100 of file cons_linear.c.

◆ DEFAULT_MAXAGGRNORMSCALE

#define DEFAULT_MAXAGGRNORMSCALE 0.0

maximal allowed relative gain in maximum norm for constraint aggregation (0.0: disable constraint aggregation)

Definition at line 103 of file cons_linear.c.

◆ DEFAULT_MAXEASYACTIVITYDELTA

#define DEFAULT_MAXEASYACTIVITYDELTA 1e6

maximum activity delta to run easy propagation on linear constraint (faster, but numerically less stable)

Definition at line 106 of file cons_linear.c.

◆ DEFAULT_MAXCARDBOUNDDIST

#define DEFAULT_MAXCARDBOUNDDIST 0.0

maximal relative distance from current node's dual bound to primal bound compared to best node's dual bound for separating knapsack cardinality cuts

Definition at line 109 of file cons_linear.c.

◆ DEFAULT_SEPARATEALL

#define DEFAULT_SEPARATEALL FALSE

should all constraints be subject to cardinality cut generation instead of only the ones with non-zero dual value?

Definition at line 112 of file cons_linear.c.

◆ DEFAULT_AGGREGATEVARIABLES

#define DEFAULT_AGGREGATEVARIABLES TRUE

should presolving search for redundant variables in equations

Definition at line 115 of file cons_linear.c.

◆ DEFAULT_SIMPLIFYINEQUALITIES

#define DEFAULT_SIMPLIFYINEQUALITIES TRUE

should presolving try to simplify inequalities

Definition at line 116 of file cons_linear.c.

◆ DEFAULT_DUALPRESOLVING

#define DEFAULT_DUALPRESOLVING TRUE

should dual presolving steps be performed?

Definition at line 117 of file cons_linear.c.

◆ DEFAULT_SINGLETONSTUFFING

#define DEFAULT_SINGLETONSTUFFING TRUE

should stuffing of singleton continuous variables be performed?

Definition at line 118 of file cons_linear.c.

◆ DEFAULT_SINGLEVARSTUFFING

#define DEFAULT_SINGLEVARSTUFFING FALSE

should single variable stuffing be performed, which tries to fulfill constraints using the cheapest variable?

Definition at line 119 of file cons_linear.c.

◆ DEFAULT_DETECTCUTOFFBOUND

#define DEFAULT_DETECTCUTOFFBOUND TRUE

should presolving try to detect constraints parallel to the objective function defining an upper bound and prevent these constraints from entering the LP

Definition at line 122 of file cons_linear.c.

◆ DEFAULT_DETECTLOWERBOUND

#define DEFAULT_DETECTLOWERBOUND TRUE

should presolving try to detect constraints parallel to the objective function defining a lower bound and prevent these constraints from entering the LP

Definition at line 127 of file cons_linear.c.

◆ DEFAULT_DETECTPARTIALOBJECTIVE

#define DEFAULT_DETECTPARTIALOBJECTIVE TRUE

should presolving try to detect subsets of constraints parallel to the objective function

Definition at line 132 of file cons_linear.c.

◆ DEFAULT_RANGEDROWPROPAGATION

#define DEFAULT_RANGEDROWPROPAGATION TRUE

should we perform ranged row propagation

Definition at line 135 of file cons_linear.c.

◆ DEFAULT_RANGEDROWARTCONS

#define DEFAULT_RANGEDROWARTCONS TRUE

should presolving and propagation extract sub-constraints from ranged rows and equations?

Definition at line 136 of file cons_linear.c.

◆ DEFAULT_RANGEDROWMAXDEPTH

#define DEFAULT_RANGEDROWMAXDEPTH INT_MAX

maximum depth to apply ranged row propagation

Definition at line 137 of file cons_linear.c.

◆ DEFAULT_RANGEDROWFREQ

#define DEFAULT_RANGEDROWFREQ 1

frequency for applying ranged row propagation

Definition at line 138 of file cons_linear.c.

◆ DEFAULT_MULTAGGRREMOVE

#define DEFAULT_MULTAGGRREMOVE FALSE

should multi-aggregations only be performed if the constraint can be removed afterwards?

Definition at line 140 of file cons_linear.c.

◆ MAXDNOM

#define MAXDNOM 10000LL

maximal denominator for simple rational fixed values

Definition at line 144 of file cons_linear.c.

Referenced by buildFlowCover(), and SCIP_DECL_PRESOLEXEC().

◆ MAXSCALEDCOEF

#define MAXSCALEDCOEF 1e+03

maximal coefficient value after scaling

Definition at line 145 of file cons_linear.c.

◆ MAXSCALEDCOEFINTEGER

#define MAXSCALEDCOEFINTEGER 1e+05

maximal coefficient value after scaling if all variables are of integral type

Definition at line 146 of file cons_linear.c.

◆ MAXVALRECOMP

#define MAXVALRECOMP 1e+06

maximal abolsute value we trust without recomputing the activity

Definition at line 152 of file cons_linear.c.

◆ MINVALRECOMP

#define MINVALRECOMP 1e-05

minimal abolsute value we trust without recomputing the activity

Definition at line 153 of file cons_linear.c.

◆ QUADCONSUPGD_PRIORITY

#define QUADCONSUPGD_PRIORITY 1000000

priority of the constraint handler for upgrading of quadratic constraints

Definition at line 156 of file cons_linear.c.

◆ NONLINCONSUPGD_PRIORITY

#define NONLINCONSUPGD_PRIORITY 1000000

priority of the constraint handler for upgrading of nonlinear constraints

Definition at line 157 of file cons_linear.c.

◆ checkMaxActivityDelta

#define checkMaxActivityDelta	(	scip,
		consdata
	)

Definition at line 1501 of file cons_linear.c.

Referenced by consdataCheckNonbinvar().

◆ MAXTIGHTENROUNDS

#define MAXTIGHTENROUNDS 10

Definition at line 6939 of file cons_linear.c.

◆ MAX_CLIQUE_NONZEROS_PER_CONS

#define MAX_CLIQUE_NONZEROS_PER_CONS 1000000

Definition at line 7752 of file cons_linear.c.

◆ MAXMULTIAGGRQUOTIENT

#define MAXMULTIAGGRQUOTIENT 1e+03

Definition at line 9455 of file cons_linear.c.

◆ BINWEIGHT

#define BINWEIGHT 1

Definition at line 10885 of file cons_linear.c.

◆ INTWEIGHT

#define INTWEIGHT 4

Definition at line 10886 of file cons_linear.c.

◆ CONTWEIGHT

#define CONTWEIGHT 8

Definition at line 10887 of file cons_linear.c.

◆ MAXCONSPRESOLROUNDS

#define MAXCONSPRESOLROUNDS 10

Definition at line 15899 of file cons_linear.c.

Typedef Documentation

◆ PROPRULE

typedef enum Proprule PROPRULE

Definition at line 328 of file cons_linear.c.

◆ INFERINFO

typedef struct InferInfo INFERINFO

Definition at line 343 of file cons_linear.c.

Enumeration Type Documentation

◆ Proprule

enum Proprule

Enumerator
PROPRULE_1	left hand side and bounds on z -> lower bound on x
PROPRULE_2	left hand side and upper bound on x -> bound on z
PROPRULE_3	right hand side and bounds on z -> upper bound on x
PROPRULE_4	right hand side and lower bound on x -> bound on z
PROPRULE_INVALID	propagation was applied without a specific propagation rule
PROPRULE_INVALID	propagation was applied without a specific propagation rule
PROPRULE_1	v_i = FALSE => r = FALSE
PROPRULE_2	r = TRUE => v_i = TRUE for all i
PROPRULE_3	v_i = TRUE for all i => r = TRUE
PROPRULE_4	r = FALSE, v_i = TRUE for all i except j => v_j = FALSE
PROPRULE_1_CORETIMES	core-time propagator
PROPRULE_2_EDGEFINDING	edge-finder
PROPRULE_3_TTEF	time-table edeg-finding
PROPRULE_1_RHS	activity residuals of all other variables tighten bounds of single variable due to the right hand side of the inequality
PROPRULE_1_LHS	activity residuals of all other variables tighten bounds of single variable due to the left hand side of the inequality
PROPRULE_1_RANGEDROW	fixed variables and gcd of all left variables tighten bounds of a single variable in this reanged row
PROPRULE_INVALID	propagation was applied without a specific propagation rule
PROPRULE_1	v_i = TRUE => r = TRUE
PROPRULE_2	r = FALSE => v_i = FALSE for all i
PROPRULE_3	v_i = FALSE for all i => r = FALSE
PROPRULE_4	r = TRUE, v_i = FALSE for all i except j => v_j = TRUE
PROPRULE_INVALID	propagation was applied without a specific propagation rule
PROPRULE_1	left hand side and bounds on y -> lower bound on x
PROPRULE_2	left hand side and upper bound on x -> bound on y
PROPRULE_3	right hand side and bounds on y -> upper bound on x
PROPRULE_4	right hand side and lower bound on x -> bound on y
PROPRULE_0	all variables are fixed => fix integral variable
PROPRULE_1	all except one variable fixed => fix remaining variable
PROPRULE_INTLB	lower bound propagation of integral variable
PROPRULE_INTUB	upper bound propagation of integral variable
PROPRULE_INVALID	propagation was applied without a specific propagation rule

Definition at line 318 of file cons_linear.c.

Function Documentation

◆ intToInferInfo()

static INFERINFO intToInferInfo ( int i )

static

converts an integer into an inference information

Parameters

i	integer to convert

Definition at line 347 of file cons_linear.c.

◆ inferInfoToInt()

static int inferInfoToInt ( INFERINFO inferinfo )

static

converts an inference information into an int

Parameters

inferinfo inference information to convert

Definition at line 360 of file cons_linear.c.

Referenced by getInferInfo().

◆ inferInfoGetProprule()

static int inferInfoGetProprule ( INFERINFO inferinfo )

static

returns the propagation rule stored in the inference information

Parameters

inferinfo inference information to convert

Definition at line 369 of file cons_linear.c.

◆ inferInfoGetPos()

static int inferInfoGetPos ( INFERINFO inferinfo )

static

returns the position stored in the inference information

Parameters

inferinfo inference information to convert

Definition at line 378 of file cons_linear.c.

◆ getInferInfo()

static INFERINFO getInferInfo	(	PROPRULE	proprule,
		int	pos
	)

static

constructs an inference information out of a propagation rule and a position number

Parameters

proprule	propagation rule that deduced the value
pos	variable position, the propagation rule was applied at

Definition at line 387 of file cons_linear.c.

References conshdlrdataEnsureLinconsupgradesSize(), and inferInfoToInt().

◆ getInferInt()

static int getInferInt	(	PROPRULE	proprule,
		int	pos
	)

static

constructs an inference information out of a propagation rule and a position number, returns info as int

Parameters

proprule	propagation rule that deduced the value
pos	variable position, the propagation rule was applied at

Definition at line 406 of file cons_linear.c.

References SCIP_CALL, SCIPcalcMemGrowSize(), and SCIPreallocBlockMemoryArray.

◆ conshdlrdataEnsureLinconsupgradesSize()

static SCIP_RETCODE conshdlrdataEnsureLinconsupgradesSize	(	SCIP *	scip,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		int	num
	)

static

ensures, that linconsupgrades array can store at least num entries

Parameters

scip	SCIP data structure
conshdlrdata	linear constraint handler data
num	minimum number of entries to store

Definition at line 421 of file cons_linear.c.

Referenced by conshdlrdataHasUpgrade(), and getInferInfo().

◆ consdataEnsureVarsSize()

static SCIP_RETCODE consdataEnsureVarsSize	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		int	num
	)

static

ensures, that vars and vals arrays can store at least num entries

Parameters

scip	SCIP data structure
consdata	linear constraint data
num	minimum number of entries to store

Definition at line 446 of file cons_linear.c.

References linconsupgradeCreate(), SCIP_CALL, SCIP_DECL_LINCONSUPGD, SCIP_OKAY, SCIPallocBlockMemory, SCIPreallocBlockMemoryArray, and TRUE.

◆ linconsupgradeCreate()

static SCIP_RETCODE linconsupgradeCreate	(	SCIP *	scip,
		SCIP_LINCONSUPGRADE **	linconsupgrade,
		SCIP_DECL_LINCONSUPGD((*linconsupgd))	,
		int	priority
	)

static

creates a linear constraint upgrade data object

Parameters

scip	SCIP data structure
linconsupgrade	pointer to store the linear constraint upgrade
priority	priority of upgrading method

Definition at line 481 of file cons_linear.c.

References conshdlrdataCreate(), and SCIPfreeBlockMemory.

Referenced by consdataEnsureVarsSize().

◆ linconsupgradeFree()

static void linconsupgradeFree	(	SCIP *	scip,
		SCIP_LINCONSUPGRADE **	linconsupgrade
	)

static

frees a linear constraint upgrade data object

Parameters

scip	SCIP data structure
linconsupgrade	pointer to the linear constraint upgrade

Definition at line 502 of file cons_linear.c.

References SCIP_CALL, and SCIPallocBlockMemory.

Referenced by conshdlrdataCreate().

◆ conshdlrdataCreate()

static SCIP_RETCODE conshdlrdataCreate	(	SCIP *	scip,
		SCIP_CONSHDLRDATA **	conshdlrdata,
		SCIP_EVENTHDLR *	eventhdlr
	)

static

creates constraint handler data for linear constraint handler

Parameters

scip	SCIP data structure
conshdlrdata	pointer to store the constraint handler data
eventhdlr	event handler

Definition at line 516 of file cons_linear.c.

References linconsupgradeFree(), and SCIPfreeBlockMemoryArrayNull.

Referenced by linconsupgradeCreate().

◆ conshdlrdataFree()

static void conshdlrdataFree	(	SCIP *	scip,
		SCIP_CONSHDLRDATA **	conshdlrdata
	)

static

frees constraint handler data for linear constraint handler

Parameters

scip	SCIP data structure
conshdlrdata	pointer to the constraint handler data

Definition at line 540 of file cons_linear.c.

Referenced by SCIP_DECL_CONSHDLRCOPY().

◆ conshdlrdataHasUpgrade()

static SCIP_Bool conshdlrdataHasUpgrade	(	SCIP *	scip,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		SCIP_DECL_LINCONSUPGD((*linconsupgd))	,
		const char *	conshdlrname
	)

static

creates a linear constraint upgrade data object

Parameters

scip	SCIP data structure
conshdlrdata	constraint handler data
conshdlrname	name of the constraint handler

Definition at line 562 of file cons_linear.c.

References conshdlrdataEnsureLinconsupgradesSize(), conshdlrdataIncludeUpgrade(), FALSE, SCIP_LinConsUpgrade::priority, SCIP_CALL, SCIPwarningMessage(), and TRUE.

◆ conshdlrdataIncludeUpgrade()

static SCIP_RETCODE conshdlrdataIncludeUpgrade	(	SCIP *	scip,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		SCIP_LINCONSUPGRADE *	linconsupgrade
	)

static

adds a linear constraint update method to the constraint handler's data

Parameters

scip	SCIP data structure
conshdlrdata	constraint handler data
linconsupgrade	linear constraint upgrade method

Definition at line 592 of file cons_linear.c.

Referenced by conshdlrdataHasUpgrade().

◆ lockRounding()

static SCIP_RETCODE lockRounding	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	var,
		SCIP_Real	val
	)

static

installs rounding locks for the given variable associated to the given coefficient in the linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
var	variable of constraint entry
val	coefficient of constraint entry

Definition at line 624 of file cons_linear.c.

References SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPconsGetData(), SCIPisInfinity(), SCIPisZero(), SCIPlockVarCons(), and unlockRounding().

◆ unlockRounding()

static SCIP_RETCODE unlockRounding	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	var,
		SCIP_Real	val
	)

static

removes rounding locks for the given variable associated to the given coefficient in the linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
var	variable of constraint entry
val	coefficient of constraint entry

Definition at line 657 of file cons_linear.c.

References consCatchEvent(), SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPisInfinity(), and SCIPunlockVarCons().

Referenced by lockRounding().

◆ consCatchEvent()

static SCIP_RETCODE consCatchEvent	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_EVENTHDLR *	eventhdlr,
		int	pos
	)

static

creates event data for variable at given position, and catches events ! [SnippetDebugAssertions]

Parameters

scip	SCIP data structure
cons	linear constraint
eventhdlr	event handler to call for the event processing
pos	array position of variable to catch bound change events for

Definition at line 691 of file cons_linear.c.

Referenced by unlockRounding().

◆ consDropEvent()

static SCIP_RETCODE consDropEvent	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_EVENTHDLR *	eventhdlr,
		int	pos
	)

static

! [SnippetDebugAssertions] deletes event data for variable at given position, and drops events

Parameters

scip	SCIP data structure
cons	linear constraint
eventhdlr	event handler to call for the event processing
pos	array position of variable to catch bound change events for

Definition at line 728 of file cons_linear.c.

Referenced by consDropAllEvents().

◆ consCatchAllEvents()

static SCIP_RETCODE consCatchAllEvents	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_EVENTHDLR *	eventhdlr
	)

static

catches bound change events for all variables in transformed linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
eventhdlr	event handler to call for the event processing

Definition at line 762 of file cons_linear.c.

◆ consDropAllEvents()

static SCIP_RETCODE consDropAllEvents	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_EVENTHDLR *	eventhdlr
	)

static

drops bound change events for all variables in transformed linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
eventhdlr	event handler to call for the event processing

Definition at line 794 of file cons_linear.c.

References consdataCreate(), consDropEvent(), SCIP_CALL, SCIP_OKAY, SCIP_Real, and SCIPfreeBlockMemoryArray.

◆ consdataCreate()

static SCIP_RETCODE consdataCreate	(	SCIP *	scip,
		SCIP_CONSDATA **	consdata,
		int	nvars,
		SCIP_VAR **	vars,
		SCIP_Real *	vals,
		SCIP_Real	lhs,
		SCIP_Real	rhs
	)

static

creates a linear constraint data

Parameters

scip	SCIP data structure
consdata	pointer to linear constraint data
nvars	number of nonzeros in the constraint
vars	array with variables of constraint entries
vals	array with coefficients of constraint entries
lhs	left hand side of row
rhs	right hand side of row

Definition at line 825 of file cons_linear.c.

Referenced by consDropAllEvents(), and SCIPcreateConsLinear().

◆ consdataFree()

static SCIP_RETCODE consdataFree	(	SCIP *	scip,
		SCIP_CONSDATA **	consdata
	)

static

frees a linear constraint data

Parameters

scip	SCIP data structure
consdata	pointer to linear constraint data

Definition at line 1024 of file cons_linear.c.

References consdataPrint(), SCIP_CALL, SCIP_OKAY, SCIPfreeBlockMemory, SCIPfreeBlockMemoryArrayNull, SCIPinfoMessage(), SCIPisEQ(), SCIPisInfinity(), SCIPisZero(), and SCIPreleaseVar().

◆ consdataPrint()

static SCIP_RETCODE consdataPrint	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		FILE *	file
	)

static

prints linear constraint in CIP format to file stream

Parameters

scip	SCIP data structure
consdata	linear constraint data
file	output file (or NULL for standard output)

Definition at line 1059 of file cons_linear.c.

Referenced by consdataFree(), and SCIP_DECL_CONSDELVARS().

◆ consPrintConsSol()

static SCIP_RETCODE consPrintConsSol	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_SOL *	sol,
		FILE *	file
	)

static

prints linear constraint and contained solution values of variables to file stream

Parameters

scip	SCIP data structure
cons	linear constraint
sol	solution to print
file	output file (or NULL for standard output)

Definition at line 1098 of file cons_linear.c.

Referenced by SCIP_DECL_CONSCHECK().

◆ consdataInvalidateActivities()

static void consdataInvalidateActivities ( SCIP_CONSDATA * consdata )

static

invalidates activity bounds, such that they are recalculated in next get

Parameters

consdata linear constraint

Definition at line 1170 of file cons_linear.c.

References bound, and SCIP_Real.

◆ consdataComputePseudoActivity()

static SCIP_Real consdataComputePseudoActivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

compute the pseudo activity of a constraint

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1216 of file cons_linear.c.

References bound, consdataRecomputeMinactivity(), SCIP_BOUNDTYPE_LOWER, SCIP_INVALID, SCIP_Real, SCIPinfinity(), SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetBestBoundType(), SCIPvarGetLbLocal(), and SCIPvarGetUbLocal().

Referenced by consdataGetGlbActivityResiduals().

◆ consdataRecomputeMinactivity()

static void consdataRecomputeMinactivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

recompute the minactivity of a constraint

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1269 of file cons_linear.c.

References bound, SCIP_Real, SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetLbLocal(), and SCIPvarGetUbLocal().

Referenced by consdataComputePseudoActivity().

◆ consdataRecomputeMaxactivity()

static void consdataRecomputeMaxactivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

recompute the maxactivity of a constraint

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1296 of file cons_linear.c.

References bound, SCIP_Real, SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetLbGlobal(), and SCIPvarGetUbGlobal().

◆ consdataRecomputeGlbMinactivity()

static void consdataRecomputeGlbMinactivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

recompute the global minactivity of a constraint

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1323 of file cons_linear.c.

References bound, SCIP_Real, SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetLbGlobal(), and SCIPvarGetUbGlobal().

◆ consdataRecomputeGlbMaxactivity()

static void consdataRecomputeGlbMaxactivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

recompute the global maxactivity of a constraint

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1350 of file cons_linear.c.

References REALABS, SCIP_INVALID, SCIP_Real, and TRUE.

◆ consdataCalcMaxAbsval()

static void consdataCalcMaxAbsval ( SCIP_CONSDATA * consdata )

static

calculates maximum absolute value of coefficients

Parameters

consdata linear constraint data

Definition at line 1377 of file cons_linear.c.

References REALABS, SCIP_INVALID, SCIP_Real, and TRUE.

◆ consdataCalcMinAbsval()

static void consdataCalcMinAbsval ( SCIP_CONSDATA * consdata )

static

calculates minimum absolute value of coefficients

Parameters

consdata linear constraint data

Definition at line 1401 of file cons_linear.c.

References consdataCheckNonbinvar(), FALSE, REALABS, SCIP_VARTYPE_BINARY, SCIPvarGetType(), and TRUE.

Referenced by consdataGetMaxAbsval().

◆ consdataCheckNonbinvar()

static void consdataCheckNonbinvar ( SCIP_CONSDATA * consdata )

static

checks the type of all variables of the constraint and sets hasnonbinvar and hascontvar flags accordingly

Parameters

consdata linear constraint data

Definition at line 1430 of file cons_linear.c.

References checkMaxActivityDelta, consdataRecomputeMaxActivityDelta(), REALABS, SCIP_INVALID, SCIP_Real, SCIPinfinity(), SCIPisFeasEQ(), SCIPisInfinity(), SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), and TRUE.

Referenced by consdataCalcMinAbsval().

◆ consdataRecomputeMaxActivityDelta()

static void consdataRecomputeMaxActivityDelta	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

recompute maximal activity contribution for a single variable

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 1506 of file cons_linear.c.

References consdataUpdateActivities(), REALABS, SCIP_Bool, SCIP_Real, SCIPinfinity(), SCIPisInfinity(), SCIPvarGetLbLocal(), and SCIPvarGetUbLocal().

Referenced by consdataCheckNonbinvar().

◆ consdataUpdateActivities()

static void consdataUpdateActivities	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	oldbound,
		SCIP_Real	newbound,
		SCIP_Real	val,
		SCIP_BOUNDTYPE	boundtype,
		SCIP_Bool	global,
		SCIP_Bool	checkreliability
	)

static

updates activities for a change in a bound

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable that has been changed; can be NULL for global bound changes
oldbound	old bound of variable
newbound	new bound of variable
val	coefficient of constraint entry
boundtype	type of the bound change
global	is it a global or a local bound change?
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 1568 of file cons_linear.c.

Referenced by consdataRecomputeMaxActivityDelta().

◆ consdataUpdateActivitiesLb()

static void consdataUpdateActivitiesLb	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	oldlb,
		SCIP_Real	newlb,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum activity for a change in lower bound

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable that has been changed
oldlb	old lower bound of variable
newlb	new lower bound of variable
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 1953 of file cons_linear.c.

◆ consdataUpdateActivitiesUb()

static void consdataUpdateActivitiesUb	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	oldub,
		SCIP_Real	newub,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum activity for a change in upper bound

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable that has been changed
oldub	old upper bound of variable
newub	new upper bound of variable
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 1978 of file cons_linear.c.

◆ consdataUpdateActivitiesGlbLb()

static void consdataUpdateActivitiesGlbLb	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_Real	oldlb,
		SCIP_Real	newlb,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum global activity for a change in the global lower bound

Parameters

scip	SCIP data structure
consdata	linear constraint data
oldlb	old lower bound of variable
newlb	new lower bound of variable
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 2003 of file cons_linear.c.

◆ consdataUpdateActivitiesGlbUb()

static void consdataUpdateActivitiesGlbUb	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_Real	oldub,
		SCIP_Real	newub,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum global activity for a change in global upper bound

Parameters

scip	SCIP data structure
consdata	linear constraint data
oldub	old upper bound of variable
newub	new upper bound of variable
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 2026 of file cons_linear.c.

◆ consdataUpdateAddCoef()

static void consdataUpdateAddCoef	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum activity and maximum absolute value for coefficient addition

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable of constraint entry
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 2049 of file cons_linear.c.

◆ consdataUpdateDelCoef()

static void consdataUpdateDelCoef	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	val,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum activity for coefficient deletion, invalidates maximum absolute value if necessary

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable of constraint entry
val	coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 2099 of file cons_linear.c.

◆ consdataUpdateChgCoef()

static void consdataUpdateChgCoef	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	oldval,
		SCIP_Real	newval,
		SCIP_Bool	checkreliability
	)

static

updates minimum and maximum activity for coefficient change, invalidates maximum absolute value if necessary

Parameters

scip	SCIP data structure
consdata	linear constraint data
var	variable of constraint entry
oldval	old coefficient of constraint entry
newval	new coefficient of constraint entry
checkreliability	should the reliability of the recalculated activity be checked?

Definition at line 2156 of file cons_linear.c.

◆ consdataGetMaxAbsval()

static SCIP_Real consdataGetMaxAbsval ( SCIP_CONSDATA * consdata )

static

returns the maximum absolute value of all coefficients in the constraint

Parameters

consdata linear constraint data

Definition at line 2256 of file cons_linear.c.

References consdataCalcMinAbsval(), and SCIP_INVALID.

◆ consdataGetMinAbsval()

static SCIP_Real consdataGetMinAbsval ( SCIP_CONSDATA * consdata )

static

returns the minimum absolute value of all coefficients in the constraint

Parameters

consdata linear constraint data

Definition at line 2272 of file cons_linear.c.

References SCIP_INVALID, and TRUE.

◆ consdataCalcActivities()

static void consdataCalcActivities	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

calculates minimum and maximum local and global activity for constraint from scratch; additionally recalculates maximum absolute value of coefficients

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 2290 of file cons_linear.c.

Referenced by consdataGetActivityResiduals(), and consdataGetGlbActivityResiduals().

◆ getMinActivity()

static void getMinActivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		int	posinf,
		int	neginf,
		int	poshuge,
		int	neghuge,
		SCIP_Real	delta,
		SCIP_Bool	global,
		SCIP_Bool	goodrelax,
		SCIP_Real *	minactivity,
		SCIP_Bool *	isrelax,
		SCIP_Bool *	issettoinfinity
	)

static

gets minimal activity for constraint and given values of counters for infinite and huge contributions and (if needed) delta to subtract from stored finite part of activity in case of a residual activity

Parameters

scip	SCIP data structure
consdata	linear constraint
posinf	number of coefficients contributing pos. infinite value
neginf	number of coefficients contributing neg. infinite value
poshuge	number of coefficients contributing huge pos. value
neghuge	number of coefficients contributing huge neg. value
delta	value to subtract from stored minactivity (contribution of the variable set to zero when getting residual activity)
global	should the global or local minimal activity be returned?
goodrelax	should a good relaxation be computed or are relaxed acticities ignored, anyway?
minactivity	pointer to store the minimal activity
isrelax	pointer to store whether the activity is a relaxation, i.e. is <= the exact minactivity (in case of huge contributing values)
issettoinfinity	pointer to store whether minactivity was set to infinity or calculated

Definition at line 2352 of file cons_linear.c.

Referenced by consdataGetActivityResiduals(), and consdataGetGlbActivityResiduals().

◆ getMaxActivity()

static void getMaxActivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		int	posinf,
		int	neginf,
		int	poshuge,
		int	neghuge,
		SCIP_Real	delta,
		SCIP_Bool	global,
		SCIP_Bool	goodrelax,
		SCIP_Real *	maxactivity,
		SCIP_Bool *	isrelax,
		SCIP_Bool *	issettoinfinity
	)

static

gets maximal activity for constraint and given values of counters for infinite and huge contributions and (if needed) delta to subtract from stored finite part of activity in case of a residual activity

Parameters

scip	SCIP data structure
consdata	linear constraint
posinf	number of coefficients contributing pos. infinite value
neginf	number of coefficients contributing neg. infinite value
poshuge	number of coefficients contributing huge pos. value
neghuge	number of coefficients contributing huge neg. value
delta	value to subtract from stored maxactivity (contribution of the variable set to zero when getting residual activity)
global	should the global or local maximal activity be returned?
goodrelax	should a good relaxation be computed or are relaxed acticities ignored, anyway?
maxactivity	pointer to store the maximal activity
isrelax	pointer to store whether the activity is a relaxation, i.e. is >= the exact maxactivity (in case of huge contributing values)
issettoinfinity	pointer to store whether maxactivity was set to infinity or calculated

Definition at line 2453 of file cons_linear.c.

Referenced by consdataGetActivityResiduals(), and consdataGetGlbActivityResiduals().

◆ consdataGetActivityBounds()

static void consdataGetActivityBounds	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_Bool	goodrelax,
		SCIP_Real *	minactivity,
		SCIP_Real *	maxactivity,
		SCIP_Bool *	minisrelax,
		SCIP_Bool *	maxisrelax
	)

static

gets activity bounds for constraint

Parameters

scip	SCIP data structure
consdata	linear constraint
goodrelax	if we have huge contributions, do we need a good relaxation or are relaxed acticities ignored, anyway?
minactivity	pointer to store the minimal activity
maxactivity	pointer to store the maximal activity
minisrelax	pointer to store whether the returned minactivity is just a relaxation, i.e. <= the exact minactivity (in case of huge contributions), or equal to the exact minimal activity
maxisrelax	pointer to store whether the returned maxactivity is just a relaxation, i.e. >= the exact maxactivity (in case of huge contributions), or equal to the exact maximal activity

Definition at line 2552 of file cons_linear.c.

◆ consdataGetReliableResidualActivity()

static void consdataGetReliableResidualActivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	cancelvar,
		SCIP_Real *	resactivity,
		SCIP_Bool	isminresact,
		SCIP_Bool	useglobalbounds
	)

static

calculates activity bounds for constraint after setting variable to zero

Parameters

scip	SCIP data structure
consdata	linear constraint
cancelvar	variable to calculate activity residual for
resactivity	pointer to store the residual activity
isminresact	should minimal or maximal residual activity be calculated?
useglobalbounds	should global or local bounds be used?

Definition at line 2598 of file cons_linear.c.

◆ consdataGetActivityResiduals()

static void consdataGetActivityResiduals	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	val,
		SCIP_Bool	goodrelax,
		SCIP_Real *	minresactivity,
		SCIP_Real *	maxresactivity,
		SCIP_Bool *	minisrelax,
		SCIP_Bool *	maxisrelax,
		SCIP_Bool *	isminsettoinfinity,
		SCIP_Bool *	ismaxsettoinfinity
	)

static

gets activity bounds for constraint after setting variable to zero

Parameters

scip	SCIP data structure
consdata	linear constraint
var	variable to calculate activity residual for
val	coefficient value of variable in linear constraint
goodrelax	if we have huge contributions, do we need a good relaxation or are relaxed acticities ignored, anyway?
minresactivity	pointer to store the minimal residual activity
maxresactivity	pointer to store the maximal residual activity
minisrelax	pointer to store whether the returned residual minactivity is just a relaxation, i.e. <= the exact residual minactivity (in case of huge contributions), or equal to the exact residual minactivity
maxisrelax	pointer to store whether the returned residual maxactivity is just a relaxation, i.e. <= the exact residual maxactivity (in case of huge contributions), or equal to the exact residual minactivity
isminsettoinfinity	pointer to store whether minresactivity was set to infinity or calculated
ismaxsettoinfinity	pointer to store whether maxresactivity was set to infinity or calculated

Definition at line 2679 of file cons_linear.c.

References consdataCalcActivities(), consdataGetGlbActivityBounds(), FALSE, getMaxActivity(), getMinActivity(), SCIP_Bool, SCIP_INVALID, SCIP_Real, SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetLbLocal(), and SCIPvarGetUbLocal().

◆ consdataGetGlbActivityBounds()

static void consdataGetGlbActivityBounds	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_Bool	goodrelax,
		SCIP_Real *	glbminactivity,
		SCIP_Real *	glbmaxactivity,
		SCIP_Bool *	minisrelax,
		SCIP_Bool *	maxisrelax,
		SCIP_Bool *	isminsettoinfinity,
		SCIP_Bool *	ismaxsettoinfinity
	)

static

gets global activity bounds for constraint

Parameters

scip	SCIP data structure
consdata	linear constraint
goodrelax	if we have huge contributions, do we need a good relaxation or are relaxed acticities ignored, anyway?
glbminactivity	pointer to store the minimal activity, or NULL, if not needed
glbmaxactivity	pointer to store the maximal activity, or NULL, if not needed
minisrelax	pointer to store whether the returned minactivity is just a relaxation, i.e. <= the exact minactivity (in case of huge contributions), or equal to the exact minimal activity
maxisrelax	pointer to store whether the returned maxactivity is just a relaxation, i.e. >= the exact maxactivity (in case of huge contributions), or equal to the exact maximal activity
isminsettoinfinity	pointer to store whether minresactivity was set to infinity or calculated
ismaxsettoinfinity	pointer to store whether maxresactivity was set to infinity or calculated

Definition at line 2830 of file cons_linear.c.

Referenced by consdataGetActivityResiduals().

◆ consdataGetGlbActivityResiduals()

static void consdataGetGlbActivityResiduals	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	var,
		SCIP_Real	val,
		SCIP_Bool	goodrelax,
		SCIP_Real *	minresactivity,
		SCIP_Real *	maxresactivity,
		SCIP_Bool *	minisrelax,
		SCIP_Bool *	maxisrelax,
		SCIP_Bool *	isminsettoinfinity,
		SCIP_Bool *	ismaxsettoinfinity
	)

static

gets global activity bounds for constraint after setting variable to zero

Parameters

scip	SCIP data structure
consdata	linear constraint
var	variable to calculate activity residual for
val	coefficient value of variable in linear constraint
goodrelax	if we have huge contributions, do we need a good relaxation or are relaxed acticities ignored, anyway?
minresactivity	pointer to store the minimal residual activity, or NULL, if not needed
maxresactivity	pointer to store the maximal residual activity, or NULL, if not needed
minisrelax	pointer to store whether the returned residual minactivity is just a relaxation, i.e. <= the exact residual minactivity (in case of huge contributions), or equal to the exact residual minactivity
maxisrelax	pointer to store whether the returned residual maxactivity is just a relaxation, i.e. <= the exact residual maxactivity (in case of huge contributions), or equal to the exact residual minactivity
isminsettoinfinity	pointer to store whether minresactivity was set to infinity or calculated
ismaxsettoinfinity	pointer to store whether maxresactivity was set to infinity or calculated

Definition at line 2892 of file cons_linear.c.

References consdataCalcActivities(), consdataComputePseudoActivity(), consdataGetActivity(), getMaxActivity(), getMinActivity(), SCIP_INVALID, SCIP_Real, SCIPhasCurrentNodeLP(), SCIPisHugeValue(), SCIPisInfinity(), SCIPvarGetLbGlobal(), SCIPvarGetUbGlobal(), and TRUE.

◆ consdataGetActivity()

static SCIP_Real consdataGetActivity	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_SOL *	sol
	)

static

calculates the activity of the linear constraint for given solution

Parameters

scip	SCIP data structure
consdata	linear constraint data
sol	solution to get activity for, NULL to current solution

Definition at line 3044 of file cons_linear.c.

References consdataGetFeasibility(), FALSE, MAX, SCIP_INVALID, SCIP_Real, SCIPdebugMsg, SCIPgetSolVal(), SCIPinfinity(), SCIPisInfinity(), and TRUE.

Referenced by consdataGetGlbActivityResiduals(), and SCIP_DECL_CONSCHECK().

◆ consdataGetFeasibility()

static SCIP_Real consdataGetFeasibility	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_SOL *	sol
	)

static

calculates the feasibility of the linear constraint for given solution

Parameters

scip	SCIP data structure
consdata	linear constraint data
sol	solution to get feasibility for, NULL to current solution

Definition at line 3112 of file cons_linear.c.

References SCIP_Real, SCIPhashSignature64, SCIPvarGetIndex(), SCIPvarGetLbGlobal(), and SCIPvarGetUbGlobal().

Referenced by consdataGetActivity().

◆ consdataUpdateSignatures()

static void consdataUpdateSignatures	(	SCIP_CONSDATA *	consdata,
		int	pos
	)

static

updates bit signatures after adding a single coefficient

Parameters

consdata	linear constraint data
pos	position of coefficient to update signatures for

Definition at line 3133 of file cons_linear.c.

References TRUE.

◆ consdataCalcSignatures()

static void consdataCalcSignatures ( SCIP_CONSDATA * consdata )

static

calculates the bit signatures of the given constraint data

Parameters

consdata linear constraint data

Definition at line 3158 of file cons_linear.c.

References permSortConsdata(), and SCIPvarCompare().

◆ SCIP_DECL_SORTINDCOMP() [1/2]

static SCIP_DECL_SORTINDCOMP ( consdataCompVar )

static

index comparison method of linear constraints: compares two indices of the variable set in the linear constraint

Definition at line 3178 of file cons_linear.c.

References SCIP_Real.

Referenced by aggregateVariables().

◆ permSortConsdata()

static void permSortConsdata	(	SCIP_CONSDATA *	consdata,
		int *	perm,
		int	nvars
	)

static

permutes the constraint's variables according to a given permutation.

Parameters

consdata	the constraint data
perm	the target permutation
nvars	the number of variables

Definition at line 3191 of file cons_linear.c.

References consdataSort(), SCIP_STAGE_INITSOLVE, SCIPgetStage(), and TRUE.

Referenced by consdataCalcSignatures().

◆ consdataSort()

static SCIP_RETCODE consdataSort	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata
	)

static

sorts linear constraint's variables depending on the stage of the solving process:

during PRESOLVING sorts variables by binaries, integers, implicit integers, and continuous variables, and the variables of the same type by non-decreasing variable index
during SOLVING sorts binary variables of the remaining problem w.r.t the absolute of their coefficient. This fastens the propagation time of the constraint handler.

Parameters

scip	SCIP data structure
consdata	linear constraint data

Definition at line 3264 of file cons_linear.c.

Referenced by permSortConsdata().

◆ chgLhs()

static SCIP_RETCODE chgLhs	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	lhs
	)

static

sets left hand side of linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
lhs	new left hand side

Definition at line 3412 of file cons_linear.c.

Referenced by SCIPaddCoefLinear(), and tightenSides().

◆ chgRhs()

static SCIP_RETCODE chgRhs	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	rhs
	)

static

sets right hand side of linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
rhs	new right hand side

Definition at line 3533 of file cons_linear.c.

Referenced by SCIPaddCoefLinear(), SCIPchgLhsLinear(), and tightenSides().

◆ addCoef()

static SCIP_RETCODE addCoef	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	var,
		SCIP_Real	val
	)

static

adds coefficient in linear constraint

Parameters

scip	SCIP data structure
cons	linear constraint
var	variable of constraint entry
val	coefficient of constraint entry

Definition at line 3655 of file cons_linear.c.

Referenced by SCIPaddCoefLinear().

◆ delCoefPos()

static SCIP_RETCODE delCoefPos	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos
	)

static

deletes coefficient at given position from linear constraint data

Parameters

scip	SCIP data structure
cons	linear constraint
pos	position of coefficient to delete

Definition at line 3809 of file cons_linear.c.

Referenced by performVarDeletions(), and SCIPchgCoefLinear().

◆ chgCoefPos()

static SCIP_RETCODE chgCoefPos	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos,
		SCIP_Real	newval
	)

static

changes coefficient value at given position of linear constraint data

Parameters

scip	SCIP data structure
cons	linear constraint
pos	position of coefficient to delete
newval	new value of coefficient

Definition at line 3930 of file cons_linear.c.

Referenced by SCIPchgCoefLinear().

◆ scaleCons()

static SCIP_RETCODE scaleCons	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	scalar
	)

static

scales a linear constraint with a constant scalar

Parameters

scip	SCIP data structure
cons	linear constraint to scale
scalar	value to scale constraint with

Definition at line 3997 of file cons_linear.c.

◆ performVarDeletions()

static SCIP_RETCODE performVarDeletions	(	SCIP *	scip,
		SCIP_CONSHDLR *	conshdlr,
		SCIP_CONS **	conss,
		int	nconss
	)

static

Parameters

scip	SCIP data structure
conshdlr	constraint handler
conss	array of constraints
nconss	number of constraints

Definition at line 4081 of file cons_linear.c.

References delCoefPos(), FALSE, normalizeCons(), SCIP_CALL, SCIP_Longint, SCIP_OKAY, SCIP_Real, SCIPconsGetData(), and SCIPvarIsDeleted().

Referenced by SCIP_DECL_CONSLOCK().

◆ normalizeCons()

static SCIP_RETCODE normalizeCons	(	SCIP *	scip,
		SCIP_CONS *	cons
	)

static

normalizes a linear constraint with the following rules:

if all coefficients have them same absolute value, change them to (-)1.0
multiplication with +1 or -1: Apply the following rules in the given order, until the sign of the factor is determined. Later rules only apply, if the current rule doesn't determine the sign):
1. the right hand side must not be negative
2. the right hand side must not be infinite
3. the absolute value of the right hand side must be greater than that of the left hand side
4. the number of positive coefficients must not be smaller than the number of negative coefficients
5. multiply with +1
rationals to integrals Try to identify a rational representation of the fractional coefficients, and multiply all coefficients by the smallest common multiple of all denominators to get integral coefficients. Forbid large denominators due to numerical stability.
division by greatest common divisor If all coefficients are integral, divide them by the greatest common divisor.

Parameters

scip	SCIP data structure
cons	linear constraint to normalize

Definition at line 4140 of file cons_linear.c.

Referenced by aggregateVariables(), and performVarDeletions().

◆ mergeMultiples()

static SCIP_RETCODE mergeMultiples	(	SCIP *	scip,
		SCIP_CONS *	cons
	)

static

replaces multiple occurrences of a variable by a single coefficient

Parameters

scip	SCIP data structure
cons	linear constraint

Definition at line 4486 of file cons_linear.c.

◆ applyFixings()

static SCIP_RETCODE applyFixings	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	infeasible
	)

static

replaces all fixed and aggregated variables by their non-fixed counterparts

Parameters

scip	SCIP data structure
cons	linear constraint
infeasible	pointer to store if infeasibility is detected; or NULL if this information is not needed; in this case, we apply all fixings instead of stopping after the first infeasible one

Definition at line 4557 of file cons_linear.c.

Referenced by aggregateVariables().

◆ addConflictBounds()

static SCIP_RETCODE addConflictBounds	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	infervar,
		SCIP_BDCHGIDX *	bdchgidx,
		int	inferpos,
		SCIP_Bool	reasonisrhs
	)

static

for each variable in the linear constraint, except the inferred variable, adds one bound to the conflict analysis' candidate store (bound depends on sign of coefficient and whether the left or right hand side was the reason for the inference variable's bound change); the conflict analysis can be initialized with the linear constraint being the conflict detecting constraint by using NULL as inferred variable

Parameters

scip	SCIP data structure
cons	constraint that inferred the bound change
infervar	variable that was deduced, or NULL
bdchgidx	bound change index (time stamp of bound change), or NULL for current time
inferpos	position of the inferred variable in the vars array
reasonisrhs	is the right hand side responsible for the bound change?

Definition at line 4798 of file cons_linear.c.

◆ addConflictFixedVars()

static SCIP_RETCODE addConflictFixedVars	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	infervar,
		SCIP_BDCHGIDX *	bdchgidx,
		int	inferpos
	)

static

for each variable in the linear ranged row constraint, except the inferred variable, adds the bounds of all fixed variables to the conflict analysis' candidate store; the conflict analysis can be initialized with the linear constraint being the conflict detecting constraint by using NULL as inferred variable

Parameters

scip	SCIP data structure
cons	constraint that inferred the bound change
infervar	variable that was deduced, or NULL
bdchgidx	bound change index (time stamp of bound change), or NULL for current time
inferpos	position of the inferred variable in the vars array, or -1

Definition at line 4980 of file cons_linear.c.

◆ addConflictReasonVars()

static SCIP_RETCODE addConflictReasonVars	(	SCIP *	scip,
		SCIP_VAR **	vars,
		int	nvars,
		SCIP_VAR *	var,
		SCIP_Real	bound
	)

static

add reasoning variables to conflict candidate queue which led to the conflict

Parameters

scip	SCIP data structure
vars	variables reasoning the infeasibility
nvars	number of variables reasoning the infeasibility
var	variable which was tried to fix/tighten, or NULL
bound	bound of variable which was tried to apply, or SCIP_INVALID

Definition at line 5045 of file cons_linear.c.

References resolvePropagation(), SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPaddConflictLb(), SCIPaddConflictUb(), SCIPisEQ(), SCIPvarGetLbLocal(), SCIPvarGetUbGlobal(), and SCIPvarGetUbLocal().

◆ resolvePropagation()

static SCIP_RETCODE resolvePropagation	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR *	infervar,
		INFERINFO	inferinfo,
		SCIP_BOUNDTYPE	boundtype,
		SCIP_BDCHGIDX *	bdchgidx,
		SCIP_RESULT *	result
	)

static

resolves a propagation on the given variable by supplying the variables needed for applying the corresponding propagation rule (see propagateCons()): (1) activity residuals of all other variables tighten bounds of single variable

Parameters

scip	SCIP data structure
cons	constraint that inferred the bound change
infervar	variable that was deduced
inferinfo	inference information
boundtype	the type of the changed bound (lower or upper bound)
bdchgidx	bound change index (time stamp of bound change), or NULL for current time
result	pointer to store the result of the propagation conflict resolving call

Definition at line 5096 of file cons_linear.c.

Referenced by addConflictReasonVars().

◆ analyzeConflict()

static SCIP_RETCODE analyzeConflict	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool	reasonisrhs
	)

static

analyzes conflicting bounds on given constraint, and adds conflict constraint to problem

Parameters

scip	SCIP data structure
cons	conflict detecting constraint
reasonisrhs	is the right hand side responsible for the conflict?

Definition at line 5189 of file cons_linear.c.

◆ canTightenBounds()

static SCIP_Bool canTightenBounds	(	SCIP *	scip,
		SCIP_CONS *	cons
	)

static

check if there is any hope of tightening some bounds

Parameters

scip	SCIP data structure
cons	linear constraint

Definition at line 5213 of file cons_linear.c.

References SCIP_Bool, and SCIP_Real.

◆ tightenVarUb()

static SCIP_RETCODE tightenVarUb	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos,
		PROPRULE	proprule,
		SCIP_Real	newub,
		SCIP_Real	oldub,
		SCIP_Bool *	cutoff,
		int *	nchgbds,
		SCIP_Bool	force
	)

static

tighten upper bound

Parameters

scip	SCIP data structure
cons	linear constraint
pos	variable position
proprule	propagation rule that deduced the value
newub	new upper bound
oldub	old upper bound
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds
force	should a possible bound change be forced even if below bound strengthening tolerance

Definition at line 5242 of file cons_linear.c.

◆ tightenVarLb()

static SCIP_RETCODE tightenVarLb	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos,
		PROPRULE	proprule,
		SCIP_Real	newlb,
		SCIP_Real	oldlb,
		SCIP_Bool *	cutoff,
		int *	nchgbds,
		SCIP_Bool	force
	)

static

tighten lower bound

Parameters

scip	SCIP data structure
cons	linear constraint
pos	variable position
proprule	propagation rule that deduced the value
newlb	new lower bound
oldlb	old lower bound
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds
force	should a possible bound change be forced even if below bound strengthening tolerance

Definition at line 5311 of file cons_linear.c.

◆ tightenVarBoundsEasy()

static SCIP_RETCODE tightenVarBoundsEasy	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos,
		SCIP_Bool *	cutoff,
		int *	nchgbds,
		SCIP_Bool	force
	)

static

tightens bounds of a single variable due to activity bounds (easy case)

Parameters

scip	SCIP data structure
cons	linear constraint
pos	position of the variable in the vars array
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds
force	should a possible bound change be forced even if below bound strengthening tolerance

Definition at line 5380 of file cons_linear.c.

◆ analyzeConflictRangedRow()

static SCIP_RETCODE analyzeConflictRangedRow	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_VAR **	vars,
		int	nvars,
		SCIP_VAR *	var,
		SCIP_Real	bound
	)

static

analyzes conflicting bounds on given ranged row constraint, and adds conflict constraint to problem

Parameters

scip	SCIP data structure
cons	conflict detecting constraint
vars	variables reasoning the infeasibility
nvars	number of variables reasoning the infeasibility
var	variable which was tried to fix/tighten, or NULL
bound	bound of variable which was tried to apply, or SCIP_INVALID

Definition at line 5640 of file cons_linear.c.

◆ rangedRowPropagation()

static SCIP_RETCODE rangedRowPropagation	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	nchgbds,
		int *	naddconss
	)

static

propagate ranged rows

Check ranged rows for possible solutions, possibly detect infeasibility, fix variables due to having only one possible solution, tighten bounds if having only two possible solutions or add constraints which propagate a subset of variables better.

Example: c1: 12 x1 + 9 x2 - x3 = 0 with x1, x2 free and 1 <= x3 <= 2

x3 needs to be a multiple of 3, so the instance is infeasible.

Example: c1: 12 x1 + 9 x2 - x3 = 1 with x1, x2 free and 1 <= x3 <= 2

The only posible value for x3 is 2, so the variable will be fixed.

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count number of fixed variables
nchgbds	pointer to count the number of bound changes
naddconss	pointer to count number of added constraints

Definition at line 5698 of file cons_linear.c.

◆ tightenVarBounds()

static SCIP_RETCODE tightenVarBounds	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int	pos,
		SCIP_Bool *	cutoff,
		int *	nchgbds,
		SCIP_Bool	force
	)

static

tightens bounds of a single variable due to activity bounds

Parameters

scip	SCIP data structure
cons	linear constraint
pos	position of the variable in the vars array
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds
force	should a possible bound change be forced even if below bound strengthening tolerance

Definition at line 6671 of file cons_linear.c.

◆ tightenBounds()

static SCIP_RETCODE tightenBounds	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	maxeasyactivitydelta,
		SCIP_Bool	sortvars,
		SCIP_Bool *	cutoff,
		int *	nchgbds
	)

static

tightens bounds of variables in constraint due to activity bounds

Parameters

scip	SCIP data structure
cons	linear constraint
maxeasyactivitydelta	maximum activity delta to run easy propagation on linear constraint
sortvars	should variables be used in sorted order?
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds

Definition at line 6943 of file cons_linear.c.

◆ checkCons()

static SCIP_RETCODE checkCons	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_SOL *	sol,
		SCIP_Bool	checklprows,
		SCIP_Bool	checkrelmaxabs,
		SCIP_Bool *	violated
	)

static

checks linear constraint for feasibility of given solution or current solution

Parameters

scip	SCIP data structure
cons	linear constraint
sol	solution to be checked, or NULL for current solution
checklprows	Do constraints represented by rows in the current LP have to be checked?
checkrelmaxabs	Should the violation for a constraint with side 0.0 be checked relative to 1.0 (FALSE) or to the maximum absolute value in the activity (TRUE)?
violated	pointer to store whether the constraint is violated

Definition at line 7110 of file cons_linear.c.

Referenced by SCIP_DECL_CONSCHECK().

◆ createRow()

static SCIP_RETCODE createRow	(	SCIP *	scip,
		SCIP_CONS *	cons
	)

static

creates an LP row in a linear constraint data

Parameters

scip	SCIP data structure
cons	linear constraint

Definition at line 7370 of file cons_linear.c.

◆ addRelaxation()

static SCIP_RETCODE addRelaxation	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff
	)

static

adds linear constraint as cut to the LP

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store whether a cutoff was found

Definition at line 7394 of file cons_linear.c.

◆ separateCons()

static SCIP_RETCODE separateCons	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		SCIP_SOL *	sol,
		SCIP_Bool	separatecards,
		SCIP_Bool	separateall,
		int *	ncuts,
		SCIP_Bool *	cutoff
	)

static

separates linear constraint: adds linear constraint as cut, if violated by given solution

Parameters

scip	SCIP data structure
cons	linear constraint
conshdlrdata	constraint handler data
sol	primal CIP solution, NULL for current LP solution
separatecards	should knapsack cardinality cuts be generated?
separateall	should all constraints be subject to cardinality cut generation instead of only the ones with non-zero dual value?
ncuts	pointer to add up the number of found cuts
cutoff	pointer to store whether a cutoff was found

Definition at line 7447 of file cons_linear.c.

◆ propagateCons()

static SCIP_RETCODE propagateCons	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool	tightenbounds,
		SCIP_Bool	rangedrowpropagation,
		SCIP_Real	maxeasyactivitydelta,
		SCIP_Bool	sortvars,
		SCIP_Bool *	cutoff,
		int *	nchgbds
	)

static

propagation method for linear constraints

Parameters

scip	SCIP data structure
cons	linear constraint
tightenbounds	should the variable's bounds be tightened?
rangedrowpropagation	should ranged row propagation be performed?
maxeasyactivitydelta	maximum activity delta to run easy propagation on linear constraint
sortvars	should variable sorting for faster propagation be used?
cutoff	pointer to store whether the node can be cut off
nchgbds	pointer to count the total number of tightened bounds

Definition at line 7537 of file cons_linear.c.

Referenced by SCIP_DECL_CONSPROP().

◆ fixVariables()

static SCIP_RETCODE fixVariables	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	nfixedvars
	)

static

converts all variables with fixed domain into FIXED variables

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count the total number of fixed variables

Definition at line 7684 of file cons_linear.c.

◆ extractCliques()

static SCIP_RETCODE extractCliques	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	maxeasyactivitydelta,
		SCIP_Bool	sortvars,
		int *	nfixedvars,
		int *	nchgbds,
		SCIP_Bool *	cutoff
	)

static

extracts cliques of the constraint and adds them to SCIP

The following clique extraction mechanism are implemeneted

collect binary variables and sort them in non increasing order, then

a) if the constraint has a finite right hand side and the negative infinity counters for the minactivity are zero then add the variables as a clique for which all successive pairs of coefficients fullfill the following condition

minactivity + vals[i] + vals[i+1] > rhs

  and also add the binary to binary implication also for non-successive variables for which the same argument
  holds

minactivity + vals[i] + vals[j] > rhs

  e.g. 5.3 x1 + 3.6 x2 + 3.3 x3 + 2.1 x4 <= 5.5 (all x are binary) would lead to the clique (x1, x2, x3) and the
       binary to binary implications x1 = 1 => x4 = 0 and x2 = 1 => x4 = 0

b) if the constraint has a finite left hand side and the positive infinity counters for the maxactivity are zero then add the variables as a clique for which all successive pairs of coefficients fullfill the follwoing condition

maxactivity + vals[i] + vals[i-1] < lhs

  and also add the binary to binary implication also for non-successive variables for which the same argument
  holds

maxactivity + vals[i] + vals[j] < lhs

  e.g. you could multiply the above example by -1

c) the constraint has a finite right hand side and a finite minactivity then add the variables as a negated clique(clique on the negated variables) for which all successive pairs of coefficients fullfill the following condition

minactivity - vals[i] - vals[i-1] > rhs

  and also add the binary to binary implication also for non-successive variables for which the
  same argument holds

minactivity - vals[i] - vals[j] > rhs

  e.g. -4 x1 -3 x2 - 2 x3 + 2 x4 <= -4 would lead to the (negated) clique (~x1, ~x2) and the binary to binary
       implication x1 = 0 => x3 = 1

d) the constraint has a finite left hand side and a finite maxactivity then add the variables as a negated clique(clique on the negated variables) for which all successive pairs of coefficients fullfill the following condition

maxactivity - vals[i] - vals[i+1] < lhs

  and also add the binary to binary implication also for non-successive variables for which the same argument
  holds

maxactivity - vals[i] - vals[j] < lhs

  e.g. you could multiply the above example by -1

if the linear constraint represents a set-packing or set-partitioning constraint, the whole constraint is added as clique, (this part is done at the end of the method)

Parameters

scip	SCIP data structure
cons	linear constraint
maxeasyactivitydelta	maximum activity delta to run easy propagation on linear constraint
sortvars	should variables be used in sorted order?
nfixedvars	pointer to count number of fixed variables
nchgbds	pointer to count the total number of tightened bounds
cutoff	pointer to store TRUE, if a cutoff was found

Definition at line 7819 of file cons_linear.c.

◆ tightenSides()

static SCIP_RETCODE tightenSides	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int *	nchgsides
	)

static

tightens left and right hand side of constraint due to integrality

Parameters

scip	SCIP data structure
cons	linear constraint
nchgsides	pointer to count number of side changes

Definition at line 8785 of file cons_linear.c.

References chgLhs(), chgRhs(), consdataTightenCoefs(), SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIP_VARTYPE_CONTINUOUS, SCIPconsGetName(), SCIPdebugMsg, SCIPfeasCeil(), SCIPfeasFloor(), SCIPisInfinity(), SCIPisIntegral(), SCIPvarGetType(), and TRUE.

◆ consdataTightenCoefs()

static SCIP_RETCODE consdataTightenCoefs	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int *	nchgcoefs,
		int *	nchgsides
	)

static

tightens coefficients of binary, integer, and implicit integer variables due to activity bounds in presolving: given an inequality lhs <= a*x + ai*xi <= rhs, with a non-continuous variable li <= xi <= ui let minact := min{a*x + ai*xi}, maxact := max{a*x + ai*xi} (i) ai >= 0: if minact + ai >= lhs and maxact - ai <= rhs: (**)

a deviation from the lower/upper bound of xi would make the left/right hand side redundant
ai, lhs and rhs can be changed to have the same redundancy effect and the same results for xi fixed to its bounds, but with a reduced ai and tightened sides to tighten the LP relaxation
change coefficients: ai' := max(lhs - minact, maxact - rhs) lhs' := lhs - (ai - ai')*li rhs' := rhs - (ai - ai')*ui (ii) ai < 0: if minact - ai >= lhs and maxact + ai <= rhs: (***)
a deviation from the upper/lower bound of xi would make the left/right hand side redundant
ai, lhs and rhs can be changed to have the same redundancy effect and the same results for xi fixed to its bounds, but with a reduced ai and tightened sides to tighten the LP relaxation
change coefficients: ai' := min(rhs - maxact, minact - lhs) lhs' := lhs - (ai - ai')*ui rhs' := rhs - (ai - ai')*li

We further try to remove redundant variable from the constraint; Variables which fulfill conditions (**) or (***) are called surely non-redundant variables. A deviation of only one from their bound makes the lhs/rhs feasible (i.e., redundant), even if all other variables are set to their "worst" bound. If all variables which are not surely non-redundant cannot make the lhs/rhs redundant, even if they are set to their "best" bound, they can be removed from the constraint. E.g., for binary variables and an inequality x_1 +x_2 +10y_1 +10y_2 >= 5, setting either of the y_i to one suffices to fulfill the inequality, whereas the x_i do not contribute to feasibility and can be removed.

Parameters

scip	SCIP data structure
cons	linear constraint
nchgcoefs	pointer to count total number of changed coefficients
nchgsides	pointer to count number of side changes

Definition at line 8868 of file cons_linear.c.

Referenced by tightenSides().

◆ convertUnaryEquality()

static SCIP_RETCODE convertUnaryEquality	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	ndelconss
	)

static

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count number of fixed variables
ndelconss	pointer to count number of deleted constraints

Definition at line 9295 of file cons_linear.c.

◆ convertBinaryEquality()

static SCIP_RETCODE convertBinaryEquality	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	naggrvars,
		int *	ndelconss
	)

static

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
naggrvars	pointer to count number of aggregated variables
ndelconss	pointer to count number of deleted constraints

Definition at line 9351 of file cons_linear.c.

◆ getNewSidesAfterAggregation()

static void getNewSidesAfterAggregation	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_VAR *	slackvar,
		SCIP_Real	slackcoef,
		SCIP_Real *	newlhs,
		SCIP_Real *	newrhs
	)

static

calculates the new lhs and rhs of the constraint after the given variable is aggregated out

Parameters

scip	SCIP data structure
consdata	linear constraint data
slackvar	variable to be aggregated out
slackcoef	coefficient of variable in constraint
newlhs	pointer to store new lhs of constraint
newrhs	pointer to store new rhs of constraint

Definition at line 9409 of file cons_linear.c.

◆ convertLongEquality()

static SCIP_RETCODE convertLongEquality	(	SCIP *	scip,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	naggrvars,
		int *	ndelconss
	)

static

Parameters

scip	SCIP data structure
conshdlrdata	linear constraint handler data
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
naggrvars	pointer to count number of aggregated variables
ndelconss	pointer to count number of deleted constraints

Definition at line 9465 of file cons_linear.c.

◆ checkEqualObjective()

static SCIP_Bool checkEqualObjective	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		SCIP_Real *	scale,
		SCIP_Real *	offset
	)

static

checks if the given variables and their coefficient are equal (w.r.t. scaling factor) to the objective function

Parameters

scip	SCIP data structure
consdata	linear constraint data
scale	pointer to store the scaling factor between the constraint and the objective function
offset	pointer to store the offset of the objective function resulting by this constraint

Definition at line 10007 of file cons_linear.c.

◆ checkPartialObjective()

static SCIP_RETCODE checkPartialObjective	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_CONSHDLRDATA *	conshdlrdata
	)

static

check if the linear equality constraint is equal to a subset of the objective function; if so we can remove the objective coefficients and add an objective offset

Parameters

scip	SCIP data structure
cons	linear equation constraint
conshdlrdata	linear constraint handler data

Definition at line 10085 of file cons_linear.c.

◆ updateCutoffbound()

static SCIP_RETCODE updateCutoffbound	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Real	primalbound
	)

static

updates the cutoff if the given primal bound (which is implied by the given constraint) is better

Parameters

scip	SCIP data structure
cons	constraint
primalbound	feasible primal bound

Definition at line 10152 of file cons_linear.c.

◆ checkParallelObjective()

static SCIP_RETCODE checkParallelObjective	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_CONSHDLRDATA *	conshdlrdata
	)

static

check if the linear constraint is parallel to objective function; if so update the cutoff bound and avoid that the constraint enters the LP by setting the initial and separated flag to FALSE

Parameters

scip	SCIP data structure
cons	linear constraint
conshdlrdata	linear constraint handler data

Definition at line 10198 of file cons_linear.c.

◆ convertEquality()

static SCIP_RETCODE convertEquality	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_CONSHDLRDATA *	conshdlrdata,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	naggrvars,
		int *	ndelconss
	)

static

converts special equalities

Parameters

scip	SCIP data structure
cons	linear constraint
conshdlrdata	linear constraint handler data
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count number of fixed variables
naggrvars	pointer to count number of aggregated variables
ndelconss	pointer to count number of deleted constraints

Definition at line 10323 of file cons_linear.c.

◆ consdataIsResidualIntegral()

static SCIP_Bool consdataIsResidualIntegral	(	SCIP *	scip,
		SCIP_CONSDATA *	consdata,
		int	pos,
		SCIP_Real	val
	)

static

returns whether the linear sum of all variables/coefficients except the given one divided by the given value is always integral

Parameters

scip	SCIP data structure
consdata	linear constraint
pos	position of variable to be left out
val	value to divide the coefficients by

Definition at line 10378 of file cons_linear.c.

References SCIPisInfinity().

◆ calculateMinvalAndMaxval()

static void calculateMinvalAndMaxval	(	SCIP *	scip,
		SCIP_Real	side,
		SCIP_Real	val,
		SCIP_Real	minresactivity,
		SCIP_Real	maxresactivity,
		SCIP_Real *	minval,
		SCIP_Real *	maxval
	)

static

Parameters

scip	SCIP data structure
side	lhs or rhs
val	coefficient
minresactivity	minimal residual activity
maxresactivity	maximal residual activity
minval	pointer to store calculated minval
maxval	pointer to store calculated maxval

Definition at line 10404 of file cons_linear.c.

References dualPresolve(), SCIP_Bool, and SCIPisInfinity().

◆ dualPresolve()

static SCIP_RETCODE dualPresolve	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	naggrvars,
		int *	ndelconss
	)

static

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count number of fixed variables
naggrvars	pointer to count number of aggregated variables
ndelconss	pointer to count number of deleted constraints

Definition at line 10449 of file cons_linear.c.

Referenced by calculateMinvalAndMaxval().

◆ getVarWeight()

static int getVarWeight ( SCIP_VAR * var )

static

gets weight for variable in a "weighted number of variables" sum

Parameters

var	variable to get weight for

Definition at line 10891 of file cons_linear.c.

References SCIP_Bool, and SCIPconsGetData().

◆ aggregateVariables()

static SCIP_RETCODE aggregateVariables	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	naggrvars,
		int *	ndelconss
	)

static

tries to aggregate variables in equations a^Tx = lhs in case there are at most two binary variables with an odd coefficient and all other variables are not continuous and have an even coefficient then:

exactly one odd binary variables this binary variables y can be fixed to 0 if the lhs is even and to 1 if the lhs is odd
- lhs is odd -> y = 1
- lhs is even -> y = 0
exactly two odd binary variables aggregate the two binary variables with odd coefficient
- lhs is odd -> exactly one of the variable has to be 1 -> var1 + var2 = 1
- lhs is even -> both have to take the same value -> var1 - var2 = 0

Parameters

scip	SCIP data structure
cons	linear constraint
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count number of fixed variables
naggrvars	pointer to count number of aggregated variables
ndelconss	pointer to count number of deleted constraints

Definition at line 10924 of file cons_linear.c.

References applyFixings(), FALSE, normalizeCons(), SCIP_Bool, SCIP_CALL, SCIP_DECL_SORTINDCOMP(), SCIP_Longint, SCIP_OKAY, SCIP_Real, SCIP_VARTYPE_CONTINUOUS, SCIPaggregateVars(), SCIPconsGetName(), SCIPdebugMsg, SCIPfeasFloor(), SCIPfixVar(), SCIPisInfinity(), SCIPisIntegral(), SCIPvarGetName(), SCIPvarGetType(), SCIPvarIsBinary(), and TRUE.

Referenced by checkCons(), and SCIP_DECL_CONSPRESOL().

◆ SCIP_DECL_SORTINDCOMP() [2/2]

static SCIP_DECL_SORTINDCOMP ( consdataCompSim )

static

sorting method for constraint data, compares two variables on given indices, continuous variables will be sorted to the end and for all other variables the sortation will be in non-increasing order of their absolute value of the coefficients

Definition at line 11090 of file cons_linear.c.

◆ rangedRowSimplify()

static SCIP_RETCODE rangedRowSimplify	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int *	nchgcoefs,
		int *	nchgsides
	)

static

tries to simplify coefficients and delete variables in ranged row of the form lhs <= a^Tx <= rhs, e.g. using the greatest common divisor

lhs <= a^Tx <= rhs, forall a_i >= lhs, a_i <= rhs, and forall pairs a_i + a_j > rhs then we can change this constraint to 1^Tx = 1

Parameters

scip	SCIP data structure
cons	linear constraint
nchgcoefs	pointer to store the amount of changed coefficients
nchgsides	pointer to store the amount of changed sides

Definition at line 11130 of file cons_linear.c.

◆ simplifyInequalities()

static SCIP_RETCODE simplifyInequalities	(	SCIP *	scip,
		SCIP_CONS *	cons,
		int *	nchgcoefs,
		int *	nchgsides
	)

static

tries to simplify coefficients and delete variables in constraints of the form lhs <= a^Tx <= rhs for equations

See also: rangedRowSimplify() will be called

there are several different coefficient reduction steps which will be applied

We try to determine parts of the constraint which will not change anything on (in-)feasibility of the constraint

e.g. 5x1 + 5x2 + 3z1 <= 8 => 3z1 is redundant if all x are binary and -2 < 3z1 <= 3
We try to remove redundant fractional parts in a constraint

e.g. 5.2x1 + 5.1x2 + 3x3 <= 8.3 => will be changed to 5x1 + 5x2 + 3x3 <= 8 if all x are binary
We are using the greatest common divisor for further reductions

e.g. 10x1 + 5y2 + 5x3 + 3x4 <= 15 => will be changed to 2x1 + y2 + x3 + x4 <= 3 if all xi are binary and y2 is integral

Parameters

scip	SCIP data structure
cons	linear constraint
nchgcoefs	pointer to store the amount of changed coefficients
nchgsides	pointer to store the amount of changed sides

Definition at line 11242 of file cons_linear.c.

◆ aggregateConstraints()

static SCIP_RETCODE aggregateConstraints	(	SCIP *	scip,
		SCIP_CONS *	cons0,
		SCIP_CONS *	cons1,
		int *	commonidx0,
		int *	commonidx1,
		int *	diffidx0minus1,
		int *	diffidx1minus0,
		int	nvarscommon,
		int	commonidxweight,
		int	diffidx0minus1weight,
		int	diffidx1minus0weight,
		SCIP_Real	maxaggrnormscale,
		int *	nchgcoefs,
		SCIP_Bool *	aggregated
	)

static

Parameters

scip	SCIP data structure
cons0	(in)equality to modify
cons1	equality to use for aggregation of cons0
commonidx0	array with indices of variables in cons0, that appear also in cons1
commonidx1	array with indices of variables in cons1, that appear also in cons0
diffidx0minus1	array with indices of variables in cons0, that don't appear in cons1
diffidx1minus0	array with indices of variables in cons1, that don't appear in cons0
nvarscommon	number of variables, that appear in both constraints
commonidxweight	variable weight sum of common variables
diffidx0minus1weight	variable weight sum of variables in cons0, that don't appear in cons1
diffidx1minus0weight	variable weight sum of variables in cons1, that don't appear in cons0
maxaggrnormscale	maximal allowed relative gain in maximum norm for constraint aggregation
nchgcoefs	pointer to count the number of changed coefficients
aggregated	pointer to store whether an aggregation was made

Definition at line 12444 of file cons_linear.c.

◆ SCIP_DECL_HASHGETKEY()

static SCIP_DECL_HASHGETKEY ( hashGetKeyLinearcons )

static

gets the key of the given element

Definition at line 12757 of file cons_linear.c.

◆ SCIP_DECL_HASHKEYEQ()

static SCIP_DECL_HASHKEYEQ ( hashKeyEqLinearcons )

static

returns TRUE iff both keys are equal; two constraints are equal if they have the same variables and the coefficients are either equal or negated

Definition at line 12767 of file cons_linear.c.

◆ SCIP_DECL_HASHKEYVAL()

static SCIP_DECL_HASHKEYVAL ( hashKeyValLinearcons )

static

returns the hash value of the key

Definition at line 12828 of file cons_linear.c.

◆ getParallelConsKey()

static unsigned int getParallelConsKey ( SCIP_CONS * cons )

static

returns the key for deciding which of two parallel constraints should be kept (smaller key should be kept); prefers non-upgraded constraints and as second criterion the constraint with the smallest position

Parameters

cons	linear constraint

Definition at line 12866 of file cons_linear.c.

References SCIPhashtableRetrieve().

◆ retrieveParallelConstraints()

static SCIP_RETCODE retrieveParallelConstraints	(	SCIP_HASHTABLE *	hashtable,
		SCIP_CONS **	querycons,
		SCIP_CONS **	parallelconss,
		int *	nparallelconss
	)

static

updates the hashtable such that out of all constraints in the hashtable that are detected to be parallel to *querycons, only one is kept in the hashtable and stored into *querycons, and all others are removed from the hashtable and stored in the given array

Parameters

hashtable	hashtable containing linear constraints
querycons	pointer to linear constraint used to look for duplicates in the hash table; upon return will contain the constraint that should be kept
parallelconss	array to return constraints that are parallel to the given; these constraints where removed from the hashtable
nparallelconss	pointer to return number of parallel constraints

Definition at line 12885 of file cons_linear.c.

◆ detectRedundantConstraints()

static SCIP_RETCODE detectRedundantConstraints	(	SCIP *	scip,
		BMS_BLKMEM *	blkmem,
		SCIP_CONS **	conss,
		int	nconss,
		int *	firstchange,
		SCIP_Bool *	cutoff,
		int *	ndelconss,
		int *	nchgsides
	)

static

compares each constraint with all other constraints for possible redundancy and removes or changes constraint accordingly; in contrast to preprocessConstraintPairs(), it uses a hash table

Parameters

scip	SCIP data structure
blkmem	block memory
conss	constraint set
nconss	number of constraints in constraint set
firstchange	pointer to store first changed constraint
cutoff	pointer to store TRUE, if a cutoff was found
ndelconss	pointer to count number of deleted constraints
nchgsides	pointer to count number of changed left/right hand sides

Definition at line 12946 of file cons_linear.c.

◆ preprocessConstraintPairs()

static SCIP_RETCODE preprocessConstraintPairs	(	SCIP *	scip,
		SCIP_CONS **	conss,
		int	firstchange,
		int	chkind,
		SCIP_Real	maxaggrnormscale,
		SCIP_Bool *	cutoff,
		int *	ndelconss,
		int *	nchgsides,
		int *	nchgcoefs
	)

static

compares constraint with all prior constraints for possible redundancy or aggregation, and removes or changes constraint accordingly

Parameters

scip	SCIP data structure
conss	constraint set
firstchange	first constraint that changed since last pair preprocessing round
chkind	index of constraint to check against all prior indices upto startind
maxaggrnormscale	maximal allowed relative gain in maximum norm for constraint aggregation
cutoff	pointer to store TRUE, if a cutoff was found
ndelconss	pointer to count number of deleted constraints
nchgsides	pointer to count number of changed left/right hand sides
nchgcoefs	pointer to count number of changed coefficients

Definition at line 13140 of file cons_linear.c.

◆ presolStuffing()

static SCIP_RETCODE presolStuffing	(	SCIP *	scip,
		SCIP_CONS *	cons,
		SCIP_Bool	singletonstuffing,
		SCIP_Bool	singlevarstuffing,
		SCIP_Bool *	cutoff,
		int *	nfixedvars,
		int *	nchgbds
	)

static

do stuffing presolving on a single constraint

Parameters

scip	SCIP data structure
cons	linear constraint
singletonstuffing	should stuffing of singleton continuous variables be performed?
singlevarstuffing	should single variable stuffing be performed, which tries to fulfill constraints using the cheapest variable?
cutoff	pointer to store TRUE, if a cutoff was found
nfixedvars	pointer to count the total number of fixed variables
nchgbds	pointer to count the total number of tightened bounds

Definition at line 13738 of file cons_linear.c.

◆ fullDualPresolve()

static SCIP_RETCODE fullDualPresolve	(	SCIP *	scip,
		SCIP_CONS **	conss,
		int	nconss,
		SCIP_Bool *	cutoff,
		int *	nchgbds
	)

static

applies full dual presolving on variables that only appear in linear constraints

Parameters

scip	SCIP data structure
conss	constraint set
nconss	number of constraints
cutoff	pointer to store TRUE, if a cutoff was found
nchgbds	pointer to count the number of bound changes

Definition at line 14324 of file cons_linear.c.

◆ enforceConstraint()

static SCIP_RETCODE enforceConstraint	(	SCIP *	scip,
		SCIP_CONSHDLR *	conshdlr,
		SCIP_CONS **	conss,
		int	nconss,
		int	nusefulconss,
		SCIP_SOL *	sol,
		SCIP_RESULT *	result
	)

static

helper function to enforce constraints

Parameters

scip	SCIP data structure
conshdlr	constraint handler
conss	constraints to process
nconss	number of constraints
nusefulconss	number of useful (non-obsolete) constraints to process
sol	solution to enforce (NULL for the LP solution)
result	pointer to store the result of the enforcing call

Definition at line 14788 of file cons_linear.c.

◆ SCIP_DECL_CONSHDLRCOPY()

static SCIP_DECL_CONSHDLRCOPY ( conshdlrCopyLinear )

static

copy method for constraint handler plugins (called when SCIP copies plugins)

Definition at line 14864 of file cons_linear.c.

References CONSHDLR_NAME, conshdlrdataFree(), SCIP_OKAY, SCIPconshdlrGetData(), SCIPconshdlrGetName(), and SCIPconshdlrSetData().

◆ SCIP_DECL_CONSFREE()

static SCIP_DECL_CONSFREE ( consFreeLinear )

static

destructor of constraint handler to free constraint handler data (called when SCIP is exiting)

Definition at line 14880 of file cons_linear.c.

References SCIPconshdlrGetData().

◆ SCIP_DECL_CONSINIT()

static SCIP_DECL_CONSINIT ( consInitLinear )

static

initialization method of constraint handler (called after problem was transformed)

Definition at line 14902 of file cons_linear.c.

◆ SCIP_DECL_CONSEXIT()

static SCIP_DECL_CONSEXIT ( consExitLinear )

static

deinitialization method of constraint handler (called before transformed problem is freed)

Definition at line 14928 of file cons_linear.c.

◆ isRangedRow()

static SCIP_Bool isRangedRow	(	SCIP *	scip,
		SCIP_Real	lhs,
		SCIP_Real	rhs
	)

static

is constraint ranged row, i.e., -inf < lhs < rhs < inf?

Parameters

scip	SCIP data structure
lhs	left hand side
rhs	right hand side

Definition at line 14962 of file cons_linear.c.

References SCIPisInfinity(), SCIPisIntegral(), and SCIPisNegative().

◆ isFiniteNonnegativeIntegral()

static SCIP_Bool isFiniteNonnegativeIntegral	(	SCIP *	scip,
		SCIP_Real	x
	)

static

is constraint ranged row, i.e., -inf < lhs < rhs < inf?

Parameters

scip	SCIP data structure
x	value

Definition at line 14976 of file cons_linear.c.

References CONSHDLR_NAME, SCIP_STAGE_PROBLEM, SCIPfindConshdlr(), and SCIPgetStage().

◆ SCIP_DECL_CONSEXITPRE()

static SCIP_DECL_CONSEXITPRE ( consExitpreLinear )

static

presolving deinitialization method of constraint handler (called after presolving has been finished)

Definition at line 15335 of file cons_linear.c.

◆ SCIP_DECL_CONSEXITSOL()

static SCIP_DECL_CONSEXITSOL ( consExitsolLinear )

static

solving process deinitialization method of constraint handler (called before branch and bound process data is freed)

Definition at line 15413 of file cons_linear.c.

References CONSHDLR_NAME, SCIP_CALL, SCIP_DECL_CONSDEACTIVE(), SCIP_OKAY, SCIP_VERBLEVEL_HIGH, SCIPconsGetData(), SCIPconshdlrGetName(), SCIPconsIsDeleted(), SCIPconvertCutsToConss(), SCIPverbMessage(), and TRUE.

◆ SCIP_DECL_CONSDEACTIVE()

static SCIP_DECL_CONSDEACTIVE ( consDeactiveLinear )

static

constraint deactivation notification method of constraint handler

Definition at line 15460 of file cons_linear.c.

Referenced by SCIP_DECL_CONSEXITSOL().

◆ SCIP_DECL_CONSDELETE()

static SCIP_DECL_CONSDELETE ( consDeleteLinear )

static

frees specific constraint data

Definition at line 15496 of file cons_linear.c.

◆ SCIP_DECL_CONSTRANS()

static SCIP_DECL_CONSTRANS ( consTransLinear )

static

transforms constraint data into data belonging to the transformed problem

Definition at line 15523 of file cons_linear.c.

◆ SCIP_DECL_CONSINITLP()

static SCIP_DECL_CONSINITLP ( consInitlpLinear )

static

LP initialization method of constraint handler (called before the initial LP relaxation at a node is solved)

Definition at line 15557 of file cons_linear.c.

References SCIP_Bool, and SCIP_Real.

◆ SCIP_DECL_CONSSEPALP()

static SCIP_DECL_CONSSEPALP ( consSepalpLinear )

static

separation method of constraint handler for LP solutions

Definition at line 15578 of file cons_linear.c.

◆ SCIP_DECL_CONSSEPASOL()

static SCIP_DECL_CONSSEPASOL ( consSepasolLinear )

static

separation method of constraint handler for arbitrary primal solutions

Definition at line 15649 of file cons_linear.c.

◆ SCIP_DECL_CONSENFOLP()

static SCIP_DECL_CONSENFOLP ( consEnfolpLinear )

static

constraint enforcing method of constraint handler for LP solutions

Definition at line 15707 of file cons_linear.c.

References SCIP_Bool.

◆ SCIP_DECL_CONSENFORELAX()

static SCIP_DECL_CONSENFORELAX ( consEnforelaxLinear )

static

constraint enforcing method of constraint handler for relaxation solutions

Definition at line 15716 of file cons_linear.c.

◆ SCIP_DECL_CONSENFOPS()

static SCIP_DECL_CONSENFOPS ( consEnfopsLinear )

static

constraint enforcing method of constraint handler for pseudo solutions

Definition at line 15725 of file cons_linear.c.

◆ SCIP_DECL_CONSCHECK()

static SCIP_DECL_CONSCHECK ( consCheckLinear )

static

feasibility check method of constraint handler for integral solutions

Definition at line 15773 of file cons_linear.c.

References checkCons(), consdataGetActivity(), CONSHDLR_NAME, consPrintConsSol(), FALSE, SCIP_Bool, SCIP_CALL, SCIP_DECL_CONSPROP(), SCIP_INFEASIBLE, SCIP_INVALID, SCIP_OKAY, SCIP_Real, SCIPconsGetData(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPinfoMessage(), SCIPisFeasGT(), and SCIPisFeasLT().

◆ SCIP_DECL_CONSPROP()

static SCIP_DECL_CONSPROP ( consPropLinear )

static

domain propagation method of constraint handler

Definition at line 15832 of file cons_linear.c.

References FALSE, propagateCons(), SCIP_Bool, SCIP_CALL, SCIP_CUTOFF, SCIP_DECL_CONSPRESOL(), SCIP_DIDNOTFIND, SCIP_OKAY, SCIP_Real, SCIP_REDUCEDDOM, SCIPconshdlrGetPropFreq(), SCIPgetDepth(), SCIPinRepropagation(), and SCIPunmarkConsPropagate().

Referenced by SCIP_DECL_CONSCHECK().

◆ SCIP_DECL_CONSPRESOL()

static SCIP_DECL_CONSPRESOL ( consPresolLinear )

static

presolving method of constraint handler

Definition at line 15902 of file cons_linear.c.

Referenced by SCIP_DECL_CONSPROP().

◆ SCIP_DECL_CONSRESPROP()

static SCIP_DECL_CONSRESPROP ( consRespropLinear )

static

propagation conflict resolving method of constraint handler

Definition at line 16387 of file cons_linear.c.

◆ SCIP_DECL_CONSLOCK()

static SCIP_DECL_CONSLOCK ( consLockLinear )

static

variable rounding lock method of constraint handler

Definition at line 16402 of file cons_linear.c.

References performVarDeletions(), SCIP_CALL, SCIP_DECL_CONSDELVARS(), SCIP_DECL_CONSPRINT(), SCIP_OKAY, SCIPaddVarLocks(), and SCIPisPositive().

◆ SCIP_DECL_CONSDELVARS()

static SCIP_DECL_CONSDELVARS ( consDelvarsLinear )

static

variable deletion method of constraint handler

Definition at line 16450 of file cons_linear.c.

References consdataPrint(), SCIP_CALL, SCIP_DECL_CONSCOPY(), SCIP_OKAY, SCIP_Real, and SCIPconsGetData().

Referenced by SCIP_DECL_CONSLOCK().

◆ SCIP_DECL_CONSPRINT()

static SCIP_DECL_CONSPRINT ( consPrintLinear )

static

constraint display method of constraint handler

Definition at line 16466 of file cons_linear.c.

Referenced by SCIP_DECL_CONSLOCK().

◆ SCIP_DECL_CONSCOPY()

static SCIP_DECL_CONSCOPY ( consCopyLinear )

static

constraint copying method of constraint handler

Definition at line 16479 of file cons_linear.c.

Referenced by SCIP_DECL_CONSDELVARS().

◆ findOperators()

static SCIP_RETCODE findOperators	(	const char *	str,
		char **	firstoperator,
		char **	secondoperator,
		SCIP_Bool *	success
	)

static

Parameters

str	null terminated input string
firstoperator	pointer to store the string starting at the first operator
secondoperator	pointer to store the string starting at the second operator
success	pointer to store if the line contains a valid operator order

Definition at line 16514 of file cons_linear.c.

References FALSE, SCIP_Bool, SCIP_DECL_CONSPARSE(), SCIP_OKAY, SCIP_Real, SCIPerrorMessage, and TRUE.

◆ SCIP_DECL_CONSPARSE()

static SCIP_DECL_CONSPARSE ( consParseLinear )

static

constraint parsing method of constraint handler

Definition at line 16616 of file cons_linear.c.

Referenced by findOperators().

◆ SCIP_DECL_CONSGETVARS()

static SCIP_DECL_CONSGETVARS ( consGetVarsLinear )

static

constraint method of constraint handler which returns the variables (if possible)

Definition at line 16775 of file cons_linear.c.

References SCIP_OKAY, SCIPconsGetData(), and TRUE.

◆ SCIP_DECL_CONSGETNVARS()

static SCIP_DECL_CONSGETNVARS ( consGetNVarsLinear )

static

! [Callback for the number of variables] constraint method of constraint handler which returns the number of variables (if possible)

Definition at line 16798 of file cons_linear.c.

References EVENTHDLR_NAME, SCIPconsGetData(), and SCIPeventhdlrGetName().

◆ SCIP_DECL_EVENTEXEC()

static SCIP_DECL_EVENTEXEC ( eventExecLinear )

static

! [Callback for the number of variables]

Definition at line 16817 of file cons_linear.c.

◆ SCIP_DECL_CONFLICTEXEC()

static SCIP_DECL_CONFLICTEXEC ( conflictExecLinear )

static

Definition at line 16994 of file cons_linear.c.

◆ SCIP_DECL_QUADCONSUPGD()

static SCIP_DECL_QUADCONSUPGD ( upgradeConsQuadratic )

static

upgrades quadratic constraints with only and at least one linear variables into a linear constraint

Definition at line 17082 of file cons_linear.c.

References SCIP_CALL, SCIP_DECL_NONLINCONSUPGD(), SCIP_OKAY, SCIPconsGetData(), SCIPconsGetName(), SCIPconsIsChecked(), SCIPconsIsDynamic(), SCIPconsIsEnforced(), SCIPconsIsInitial(), SCIPconsIsLocal(), SCIPconsIsModifiable(), SCIPconsIsPropagated(), SCIPconsIsRemovable(), SCIPconsIsSeparated(), SCIPconsIsStickingAtNode(), SCIPcreateConsLinear(), SCIPdebugMsg, SCIPdebugPrintCons, SCIPgetCoefsLinearVarsQuadratic(), SCIPgetExprgraphNodeNonlinear(), SCIPgetLhsQuadratic(), SCIPgetLinearVarsQuadratic(), SCIPgetNLinearVarsNonlinear(), SCIPgetNLinearVarsQuadratic(), SCIPgetRhsQuadratic(), and TRUE.

◆ SCIP_DECL_NONLINCONSUPGD()

static SCIP_DECL_NONLINCONSUPGD ( upgradeConsNonlinear )

static

tries to upgrade a nonlinear constraint into a linear constraint

Definition at line 17133 of file cons_linear.c.

References CONFLICTHDLR_DESC, CONFLICTHDLR_NAME, CONFLICTHDLR_PRIORITY, EVENTHDLR_DESC, EVENTHDLR_NAME, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetName(), SCIPconsIsChecked(), SCIPconsIsDynamic(), SCIPconsIsEnforced(), SCIPconsIsInitial(), SCIPconsIsLocal(), SCIPconsIsModifiable(), SCIPconsIsPropagated(), SCIPconsIsRemovable(), SCIPconsIsSeparated(), SCIPconsIsStickingAtNode(), SCIPcreateConsLinear(), SCIPdebugMsg, SCIPdebugPrintCons, SCIPgetLhsNonlinear(), SCIPgetLinearCoefsNonlinear(), SCIPgetLinearVarsNonlinear(), SCIPgetNLinearVarsNonlinear(), SCIPgetRhsNonlinear(), SCIPincludeConflicthdlrBasic(), SCIPincludeConshdlrLinear(), SCIPincludeEventhdlrBasic(), and TRUE.

Referenced by SCIP_DECL_QUADCONSUPGD().

SCIP

Detailed Description

Macros

Typedefs

Enumerations

Functions

Macro Definition Documentation

◆ CONSHDLR_NAME

◆ CONSHDLR_DESC

◆ CONSHDLR_SEPAPRIORITY

◆ CONSHDLR_ENFOPRIORITY

◆ CONSHDLR_CHECKPRIORITY

◆ CONSHDLR_SEPAFREQ

◆ CONSHDLR_PROPFREQ

◆ CONSHDLR_EAGERFREQ

◆ CONSHDLR_MAXPREROUNDS

◆ CONSHDLR_DELAYSEPA

◆ CONSHDLR_DELAYPROP

◆ CONSHDLR_NEEDSCONS

◆ CONSHDLR_PRESOLTIMING

◆ CONSHDLR_PROP_TIMING

◆ EVENTHDLR_NAME

◆ EVENTHDLR_DESC

◆ CONFLICTHDLR_NAME

◆ CONFLICTHDLR_DESC

◆ CONFLICTHDLR_PRIORITY

◆ DEFAULT_TIGHTENBOUNDSFREQ

◆ DEFAULT_MAXROUNDS

◆ DEFAULT_MAXROUNDSROOT

◆ DEFAULT_MAXSEPACUTS

◆ DEFAULT_MAXSEPACUTSROOT

◆ DEFAULT_PRESOLPAIRWISE

◆ DEFAULT_PRESOLUSEHASHING

◆ DEFAULT_NMINCOMPARISONS

◆ DEFAULT_MINGAINPERNMINCOMP

◆ DEFAULT_SORTVARS

◆ DEFAULT_CHECKRELMAXABS

◆ DEFAULT_MAXAGGRNORMSCALE

◆ DEFAULT_MAXEASYACTIVITYDELTA

◆ DEFAULT_MAXCARDBOUNDDIST

◆ DEFAULT_SEPARATEALL

◆ DEFAULT_AGGREGATEVARIABLES

◆ DEFAULT_SIMPLIFYINEQUALITIES

◆ DEFAULT_DUALPRESOLVING

◆ DEFAULT_SINGLETONSTUFFING

◆ DEFAULT_SINGLEVARSTUFFING

◆ DEFAULT_DETECTCUTOFFBOUND

◆ DEFAULT_DETECTLOWERBOUND

◆ DEFAULT_DETECTPARTIALOBJECTIVE

◆ DEFAULT_RANGEDROWPROPAGATION

◆ DEFAULT_RANGEDROWARTCONS

◆ DEFAULT_RANGEDROWMAXDEPTH

◆ DEFAULT_RANGEDROWFREQ

◆ DEFAULT_MULTAGGRREMOVE

◆ MAXDNOM

◆ MAXSCALEDCOEF

◆ MAXSCALEDCOEFINTEGER

◆ MAXVALRECOMP

◆ MINVALRECOMP

◆ QUADCONSUPGD_PRIORITY

◆ NONLINCONSUPGD_PRIORITY

◆ checkMaxActivityDelta

◆ MAXTIGHTENROUNDS

◆ MAX_CLIQUE_NONZEROS_PER_CONS

◆ MAXMULTIAGGRQUOTIENT

◆ BINWEIGHT

◆ INTWEIGHT

◆ CONTWEIGHT

◆ MAXCONSPRESOLROUNDS

Typedef Documentation

◆ PROPRULE

◆ INFERINFO

Enumeration Type Documentation

◆ Proprule

Function Documentation

◆ intToInferInfo()

◆ inferInfoToInt()

◆ inferInfoGetProprule()

◆ inferInfoGetPos()

◆ getInferInfo()