Detailed Description
methods and files provided by the default constraint handlers of SCIP
A detailed description what a constraint handler does and how to add a constraint handler to SCIP can be found here.
Data Structures | |
struct | SCIP_QuadVarTerm |
struct | SCIP_BilinTerm |
struct | SCIP_RowPrep |
Modules | |
Inclusion methods | |
methods to include specific constraint handlers into SCIP | |
Files | |
file | cons_abspower.h |
Constraint handler for absolute power constraints \(\textrm{lhs} \leq \textrm{sign}(x+a) |x+a|^n + c z \leq \textrm{rhs}\). | |
file | cons_and.h |
Constraint handler for AND constraints, \(r = x_1 \wedge x_2 \wedge \dots \wedge x_n\). | |
file | cons_benders.h |
constraint handler for Benders' decomposition | |
file | cons_benderslp.h |
constraint handler for benderslp decomposition | |
file | cons_bivariate.h |
constraint handler for bivariate nonlinear constraints \(\textrm{lhs} \leq f(x,y) + c z \leq \textrm{rhs}\) | |
file | cons_bounddisjunction.h |
constraint handler for bound disjunction constraints \((x_1 \{\leq,\geq\} b_1) \vee \ldots \vee (x_n \{\leq,\geq\} b_n)\) | |
file | cons_cardinality.h |
constraint handler for cardinality constraints | |
file | cons_conjunction.h |
constraint handler for conjunction constraints | |
file | cons_countsols.h |
Constraint handler for counting feasible solutions. | |
file | cons_cumulative.h |
constraint handler for cumulative constraints | |
file | cons_disjunction.h |
constraint handler for disjunction constraints | |
file | cons_indicator.h |
constraint handler for indicator constraints | |
file | cons_integral.h |
constraint handler for the integrality constraint | |
file | cons_knapsack.h |
Constraint handler for knapsack constraints of the form \(a^T x \le b\), x binary and \(a \ge 0\). | |
file | cons_linear.h |
Constraint handler for linear constraints in their most general form, \(lhs <= a^T x <= rhs\). | |
file | cons_linking.h |
constraint handler for linking binary variables to an integer variable | |
file | cons_logicor.h |
Constraint handler for logicor constraints \(1^T x \ge 1\) (equivalent to set covering, but algorithms are suited for depth first search). | |
file | cons_nonlinear.h |
constraint handler for nonlinear constraints \(\textrm{lhs} \leq \sum_{i=1}^n a_ix_i + \sum_{j=1}^m c_jf_j(x) \leq \textrm{rhs}\) | |
file | cons_or.h |
Constraint handler for "or" constraints, \(r = x_1 \vee x_2 \vee \dots \vee x_n\). | |
file | cons_orbisack.h |
constraint handler for orbisack constraints | |
file | cons_orbitope.h |
constraint handler for (partitioning/packing/full) orbitope constraints w.r.t. the full symmetric group | |
file | cons_pseudoboolean.h |
constraint handler for pseudoboolean constraints | |
file | cons_quadratic.h |
constraint handler for quadratic constraints \(\textrm{lhs} \leq \sum_{i,j=1}^n a_{i,j} x_ix_j + \sum_{i=1}^n b_i x_i \leq \textrm{rhs}\) | |
file | cons_setppc.h |
Constraint handler for the set partitioning / packing / covering constraints \(1^T x\ \{=, \le, \ge\}\ 1\). | |
file | cons_soc.h |
constraint handler for second order cone constraints \(\sqrt{\gamma + \sum_{i=1}^{n} (\alpha_i\, (x_i + \beta_i))^2} \leq \alpha_{n+1}\, (x_{n+1}+\beta_{n+1})\) | |
file | cons_sos1.h |
constraint handler for SOS type 1 constraints | |
file | cons_sos2.h |
constraint handler for SOS type 2 constraints | |
file | cons_superindicator.h |
constraint handler for indicator constraints over arbitrary constraint types | |
file | cons_symresack.h |
constraint handler for symresack constraints | |
file | cons_varbound.h |
Constraint handler for variable bound constraints \(lhs \leq x + c y \leq rhs\). | |
file | cons_xor.h |
Constraint handler for XOR constraints, \(rhs = x_1 \oplus x_2 \oplus \dots \oplus x_n\). | |
file | cons_rpa.h |
constraint handler for ringpacking | |
file | cons_optcumulative.c |
constraint handler for cumulative constraints with optional activities | |
Absolute Power Constraints | |
This constraint handler handles constraints of the form \[ \textrm{lhs} \leq \textrm{sign}(x+a) |x+a|^n + c z \leq \textrm{rhs} \] for \(n > 1.0\) a rational number, \(a\) and \(c\) arbitrary, and \(x\) and \(z\) variables. Note that \(x\) can have \(-a\) in the interior of its domain. Constraints are enforced by separation, domain propagation, and spatial branching. Cuts that separate on the convex hull of the graph of \(\textrm{sign}(x+a) |x+a|^n\) are generated as long as they separate the relaxation solution. Otherwise, spatial branching on \(x\) is applied. Further, domain propagation is implemented to propagate bound changes on \(x\) onto \(z\), and vice versa, and repropagation is implemented to allow for conflict analysis. During presolve, a pairwise comparison of absolute power constraints may allow to fix or aggregate some variables. See also
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SCIP_RETCODE | SCIPcreateConsAbspower (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *x, SCIP_VAR *z, SCIP_Real exponent, SCIP_Real xoffset, SCIP_Real zcoef, 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 | SCIPcreateConsBasicAbspower (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *x, SCIP_VAR *z, SCIP_Real exponent, SCIP_Real xoffset, SCIP_Real zcoef, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_RETCODE | SCIPgetNlRowAbspower (SCIP *scip, SCIP_CONS *cons, SCIP_NLROW **nlrow) |
SCIP_VAR * | SCIPgetNonlinearVarAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetLinearVarAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetExponentAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetOffsetAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetCoefLinearAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLhsAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsAbspower (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetViolationAbspower (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol) |
AND Constraints | |
This constraint handler deals with AND-constraints. These are constraint of the form: \[ r = x_1 \wedge x_2 \wedge \dots \wedge x_n \] where \(x_i\) is a binary variable for all \(i\). Hence, \(r\) is also of binary type. The variable \(r\) is called resultant and the \(x\)'s operators. | |
SCIP_RETCODE | SCIPcreateConsAnd (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *resvar, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicAnd (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *resvar, int nvars, SCIP_VAR **vars) |
int | SCIPgetNVarsAnd (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsAnd (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetResultantAnd (SCIP *scip, SCIP_CONS *cons) |
SCIP_Bool | SCIPisAndConsSorted (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsortAndCons (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPchgAndConsCheckFlagWhenUpgr (SCIP *scip, SCIP_CONS *cons, SCIP_Bool flag) |
SCIP_RETCODE | SCIPchgAndConsRemovableFlagWhenUpgr (SCIP *scip, SCIP_CONS *cons, SCIP_Bool flag) |
Benders Constraints | |
Two constraint handlers are implemented for the generation of Benders' decomposition cuts. When included in a problem, the Benders' decomposition constraint handlers generate cuts during the enforcement of LP and relaxation solutions. Additionally, Benders' decomposition cuts can be generated when checking the feasibility of solutions with respect to the subproblem constraints. This constraint handler has an enforcement priority that is less than the integer constraint handler. This means that only integer feasible solutions from the LP solver are enforced by this constraint handler. This is the traditional behaviour of the branch-and-check approach to Benders' decomposition. Additionally, the check priority is set low, such that this expensive constraint handler is only called as a final check on primal feasible solutions. This constraint handler in the standard constraint handler that should be added when using Benders' decomposition. Additionally, there is a flag in SCIPincludeConshdlrBenders that permits the addition of the LP constraint handler, cons_benderslp. The use of both cons_benders and cons_benderslp allows the user to perform a multiphase Benders' decomposition algorithm. | |
SCIP_RETCODE | SCIPconsBendersEnforceSolution (SCIP *scip, SCIP_SOL *sol, SCIP_CONSHDLR *conshdlr, SCIP_RESULT *result, SCIP_BENDERSENFOTYPE type, SCIP_Bool checkint) |
Bivariate Constraints | |
This constraint handler handles constraints of the form \[ \textrm{lhs} \leq f(x,y) + c z \leq \textrm{rhs} \] for a bivariate nonlinear function \(f(x,y)\) (given as expression tree) that has a fixed convexity behaviour, that is, \(f(x,y)\) has to be either jointly convex in \((x,y)\), or convex in \(x\) and concave in \(y\), or convex in \(x\) and convex in \(y\), but indefinite w.r.t. \((x,y)\). See also
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enum | SCIP_BIVAR_CONVEXITY { SCIP_BIVAR_ALLCONVEX = 0, SCIP_BIVAR_1CONVEX_INDEFINITE = 1, SCIP_BIVAR_CONVEX_CONCAVE = 2, SCIP_BIVAR_UNKNOWN = 3 } |
SCIP_RETCODE | SCIPcreateConsBivariate (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_EXPRTREE *f, SCIP_BIVAR_CONVEXITY convextype, SCIP_VAR *z, SCIP_Real zcoef, 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 | SCIPcreateConsBasicBivariate (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_EXPRTREE *f, SCIP_BIVAR_CONVEXITY convextype, SCIP_VAR *z, SCIP_Real zcoef, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_VAR * | SCIPgetLinearVarBivariate (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLinearCoefBivariate (SCIP *scip, SCIP_CONS *cons) |
SCIP_EXPRTREE * | SCIPgetExprtreeBivariate (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLhsBivariate (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsBivariate (SCIP *scip, SCIP_CONS *cons) |
Bound Disjunction Constraints | |
This constraint handler handles bound disjunction constraints of the form \[ (x_1 \{\leq,\geq\} b_1) \vee \ldots \vee (x_n \{\leq,\geq\} b_n) \] with bounds \(b_i \in Q\), decision variables \(x_i\), which can be of any type, and bound types \(\leq\) or \(\geq\). | |
SCIP_RETCODE | SCIPcreateConsBounddisjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_BOUNDTYPE *boundtypes, SCIP_Real *bounds, 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 | SCIPcreateConsBasicBounddisjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_BOUNDTYPE *boundtypes, SCIP_Real *bounds) |
int | SCIPgetNVarsBounddisjunction (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsBounddisjunction (SCIP *scip, SCIP_CONS *cons) |
SCIP_BOUNDTYPE * | SCIPgetBoundtypesBounddisjunction (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetBoundsBounddisjunction (SCIP *scip, SCIP_CONS *cons) |
Cardinality Constraints | |
This constraint handler handles cardinality constraints of the form \[ |\mbox{supp}(x)| \leq b \] with integer right-hand side \(b\). Here, \(|\mbox{supp}(x)|\) denotes the number of nonzero entries of the vector \(x\). Cardinality constraints generalize special ordered set of type one (SOS1) constraints in which \(b = 1\). | |
SCIP_RETCODE | SCIPcreateConsCardinality (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, int cardval, SCIP_VAR **indvars, SCIP_Real *weights, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicCardinality (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, int cardval, SCIP_VAR **indvars, SCIP_Real *weights) |
SCIP_RETCODE | SCIPchgCardvalCardinality (SCIP *scip, SCIP_CONS *cons, int cardval) |
SCIP_RETCODE | SCIPaddVarCardinality (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_VAR *indvar, SCIP_Real weight) |
SCIP_RETCODE | SCIPappendVarCardinality (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_VAR *indvar) |
int | SCIPgetNVarsCardinality (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsCardinality (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetCardvalCardinality (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetWeightsCardinality (SCIP *scip, SCIP_CONS *cons) |
Conjunction Constraints | |
A conjunction constraint \( C \) is a constraint of the form \[ C = C_1 \wedge \dots \wedge C_n \] where all the \( C_i \) are individual constraints themselves. | |
SCIP_RETCODE | SCIPcreateConsConjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nconss, SCIP_CONS **conss, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic) |
SCIP_RETCODE | SCIPcreateConsBasicConjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nconss, SCIP_CONS **conss) |
SCIP_RETCODE | SCIPaddConsElemConjunction (SCIP *scip, SCIP_CONS *cons, SCIP_CONS *addcons) |
Constraint Handler for counting solutions | |
If this constraint handler is activated than it counts or collects all feasible solutions. We refer to How to use SCIP to count/enumerate feasible solutions for more details about using SCIP for counting feasible solutions. | |
SCIP_DECL_DIALOGEXEC (SCIPdialogExecCountPresolve) | |
SCIP_DECL_DIALOGEXEC (SCIPdialogExecCount) | |
SCIP_DECL_DIALOGEXEC (SCIPdialogExecWriteAllsolutions) | |
SCIP_RETCODE | SCIPcount (SCIP *scip) |
SCIP_Longint | SCIPgetNCountedSols (SCIP *scip, SCIP_Bool *valid) |
void | SCIPgetNCountedSolsstr (SCIP *scip, char **buffer, int buffersize, int *requiredsize) |
SCIP_Longint | SCIPgetNCountedFeasSubtrees (SCIP *scip) |
void | SCIPgetCountedSparseSols (SCIP *scip, SCIP_VAR ***vars, int *nvars, SCIP_SPARSESOL ***sols, int *nsols) |
SCIP_RETCODE | SCIPsetParamsCountsols (SCIP *scip) |
Cumulative Constraints | |
The cumulative constraint ensures that for each point in time \(t\) \(\sum_{j: S_j \leq t < S_j + p_j} d_j \leq C\) holds.
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SCIP_RETCODE | SCIPcreateConsCumulative (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity, 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 | SCIPcreateConsBasicCumulative (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity) |
SCIP_RETCODE | SCIPsetHminCumulative (SCIP *scip, SCIP_CONS *cons, int hmin) |
int | SCIPgetHminCumulative (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsetHmaxCumulative (SCIP *scip, SCIP_CONS *cons, int hmax) |
int | SCIPgetHmaxCumulative (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsCumulative (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetNVarsCumulative (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetCapacityCumulative (SCIP *scip, SCIP_CONS *cons) |
int * | SCIPgetDurationsCumulative (SCIP *scip, SCIP_CONS *cons) |
int * | SCIPgetDemandsCumulative (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPcheckCumulativeCondition (SCIP *scip, SCIP_SOL *sol, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity, int hmin, int hmax, SCIP_Bool *violated, SCIP_CONS *cons, SCIP_Bool printreason) |
SCIP_RETCODE | SCIPnormalizeCumulativeCondition (SCIP *scip, int nvars, SCIP_VAR **vars, int *durations, int *demands, int *capacity, int *nchgcoefs, int *nchgsides) |
SCIP_RETCODE | SCIPsplitCumulativeCondition (SCIP *scip, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity, int *hmin, int *hmax, int *split) |
SCIP_RETCODE | SCIPpresolveCumulativeCondition (SCIP *scip, int nvars, SCIP_VAR **vars, int *durations, int hmin, int hmax, SCIP_Bool *downlocks, SCIP_Bool *uplocks, SCIP_CONS *cons, SCIP_Bool *delvars, int *nfixedvars, int *nchgsides, SCIP_Bool *cutoff) |
SCIP_RETCODE | SCIPpropCumulativeCondition (SCIP *scip, SCIP_PRESOLTIMING presoltiming, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity, int hmin, int hmax, SCIP_CONS *cons, int *nchgbds, SCIP_Bool *initialized, SCIP_Bool *explanation, SCIP_Bool *cutoff) |
SCIP_RETCODE | SCIPrespropCumulativeCondition (SCIP *scip, int nvars, SCIP_VAR **vars, int *durations, int *demands, int capacity, int hmin, int hmax, SCIP_VAR *infervar, int inferinfo, SCIP_BOUNDTYPE boundtype, SCIP_BDCHGIDX *bdchgidx, SCIP_Real relaxedbd, SCIP_Bool *explanation, SCIP_RESULT *result) |
SCIP_RETCODE | SCIPvisualizeConsCumulative (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsetSolveCumulative (SCIP *scip, SCIP_DECL_SOLVECUMULATIVE((*solveCumulative))) |
SCIP_RETCODE | SCIPsolveCumulative (SCIP *scip, int njobs, SCIP_Real *ests, SCIP_Real *lsts, SCIP_Real *objvals, int *durations, int *demands, int capacity, int hmin, int hmax, SCIP_Real timelimit, SCIP_Real memorylimit, SCIP_Longint maxnodes, SCIP_Bool *solved, SCIP_Bool *infeasible, SCIP_Bool *unbounded, SCIP_Bool *error) |
SCIP_RETCODE | SCIPcreateWorstCaseProfile (SCIP *scip, SCIP_PROFILE *profile, int nvars, SCIP_VAR **vars, int *durations, int *demands) |
int | SCIPcomputeHmin (SCIP *scip, SCIP_PROFILE *profile, int capacity) |
int | SCIPcomputeHmax (SCIP *scip, SCIP_PROFILE *profile, int capacity) |
#define | SCIP_DECL_SOLVECUMULATIVE(x) |
Disjunction Constraints | |
A disjunction constraint \( C \) is a constraint of the form \[ C = C_1 \vee \dots \vee C_n \] where all the \( C_i \) are individual constraints themselves. | |
SCIP_RETCODE | SCIPcreateConsDisjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nconss, SCIP_CONS **conss, SCIP_CONS *relaxcons, SCIP_Bool initial, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic) |
SCIP_RETCODE | SCIPcreateConsBasicDisjunction (SCIP *scip, SCIP_CONS **cons, const char *name, int nconss, SCIP_CONS **conss, SCIP_CONS *relaxcons) |
SCIP_RETCODE | SCIPaddConsElemDisjunction (SCIP *scip, SCIP_CONS *cons, SCIP_CONS *addcons) |
Indicator Constraints | |
An indicator constraint is given by a binary variable \(z\) and an inequality \(ax \leq b\). It states that if \(z = 1\) then \(ax \leq b\) holds. This constraint is handled by adding a slack variable \(s:\; ax - s \leq b\) with \(s \geq 0\). The constraint is enforced by fixing \(s\) to 0 if \(z = 1\).
This constraint is equivalent to a linear constraint \(ax - s \leq b\) and an SOS1 constraint on \(z\) and \(s\) (at most one should be nonzero). In the indicator context we can, however, separate more inequalities. | |
SCIP_RETCODE | SCIPcreateConsIndicator (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, int nvars, SCIP_VAR **vars, SCIP_Real *vals, SCIP_Real rhs, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicIndicator (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, int nvars, SCIP_VAR **vars, SCIP_Real *vals, SCIP_Real rhs) |
SCIP_RETCODE | SCIPcreateConsIndicatorLinCons (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, SCIP_CONS *lincons, SCIP_VAR *slackvar, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicIndicatorLinCons (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, SCIP_CONS *lincons, SCIP_VAR *slackvar) |
SCIP_RETCODE | SCIPaddVarIndicator (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real val) |
SCIP_CONS * | SCIPgetLinearConsIndicator (SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsetLinearConsIndicator (SCIP *scip, SCIP_CONS *cons, SCIP_CONS *lincons) |
SCIP_RETCODE | SCIPsetBinaryVarIndicator (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *binvar) |
SCIP_VAR * | SCIPgetBinaryVarIndicator (SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetSlackVarIndicator (SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsetSlackVarUb (SCIP *scip, SCIP_CONS *cons, SCIP_Real ub) |
SCIP_Bool | SCIPisViolatedIndicator (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol) |
SCIP_RETCODE | SCIPmakeIndicatorFeasible (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Bool *changed) |
SCIP_RETCODE | SCIPmakeIndicatorsFeasible (SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, SCIP_Bool *changed) |
SCIP_RETCODE | SCIPaddLinearConsIndicator (SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *lincons) |
SCIP_RETCODE | SCIPaddRowIndicator (SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_ROW *row) |
Knapsack Constraints | |
This constraint handler handles a special type of linear constraints, namely knapsack constraints. A knapsack constraint has the form \[ \sum_{i=1}^n a_i x_i \leq b \] with non-negative integer coefficients \(a_i\), integer right-hand side \(b\), and binary variables \(x_i\). | |
SCIP_RETCODE | SCIPcreateConsKnapsack (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Longint *weights, SCIP_Longint capacity, 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 | SCIPcreateConsBasicKnapsack (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Longint *weights, SCIP_Longint capacity) |
SCIP_RETCODE | SCIPaddCoefKnapsack (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Longint weight) |
SCIP_Longint | SCIPgetCapacityKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPchgCapacityKnapsack (SCIP *scip, SCIP_CONS *cons, SCIP_Longint capacity) |
int | SCIPgetNVarsKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_Longint * | SCIPgetWeightsKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualsolKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualfarkasKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_ROW * | SCIPgetRowKnapsack (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsolveKnapsackExactly (SCIP *scip, int nitems, SCIP_Longint *weights, SCIP_Real *profits, SCIP_Longint capacity, int *items, int *solitems, int *nonsolitems, int *nsolitems, int *nnonsolitems, SCIP_Real *solval, SCIP_Bool *success) |
SCIP_RETCODE | SCIPsolveKnapsackApproximately (SCIP *scip, int nitems, SCIP_Longint *weights, SCIP_Real *profits, SCIP_Longint capacity, int *items, int *solitems, int *nonsolitems, int *nsolitems, int *nnonsolitems, SCIP_Real *solval) |
SCIP_RETCODE | SCIPseparateKnapsackCuts (SCIP *scip, SCIP_CONS *cons, SCIP_SEPA *sepa, SCIP_VAR **vars, int nvars, SCIP_Longint *weights, SCIP_Longint capacity, SCIP_SOL *sol, SCIP_Bool usegubs, SCIP_Bool *cutoff, int *ncuts) |
SCIP_RETCODE | SCIPseparateRelaxedKnapsack (SCIP *scip, SCIP_CONS *cons, SCIP_SEPA *sepa, int nknapvars, SCIP_VAR **knapvars, SCIP_Real *knapvals, SCIP_Real valscale, SCIP_Real rhs, SCIP_SOL *sol, SCIP_Bool *cutoff, int *ncuts) |
Linear Constraints | |
This constraint handler handles linear constraints in their most general form. That is, \[ lhs \leq \sum_{i=1}^n a_i x_i \leq rhs \] with \(a_i \in Q, i = 1,\dots,n\), \(lhs\in Q \cup \{-\infty\}\), \(rhs\in Q \cup \{\infty\}\), and decision variables \(x_i, i = 1,\dots,n\) which can be binary, integer, or continuous. Furthermore, this header offers the upgrade functionality of a general linear constraint into a more specific constraint, such as a knapsack constraint, via SCIP_DECL_LINCONSUPGD() and SCIPincludeLinconsUpgrade() | |
typedef struct SCIP_LinConsUpgrade | SCIP_LINCONSUPGRADE |
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) |
SCIP_RETCODE | SCIPclassifyConstraintTypesLinear (SCIP *scip, SCIP_LINCONSSTATS *linconsstats) |
#define | SCIP_DECL_LINCONSUPGD(x) |
Linking Constraints | |
The constraints handler stores linking constraints between an integer variable and an array of binary variables. Such a linking constraint has the form: \[ y = \sum_{i=1}^n {c_i * x_i} \] with integer variable \( y \), binary variables \( x_1, \dots, x_n \) and offset \(b \in Q\), and with the additional side condition that exactly one binary variable has to be one (set partitioning condition). This constraint can be created only with the integer variable. In this case the binary variables are only created on demand. That is, whenever someone asks for the binary variables. Therefore, such constraints can be used to get a "binary representation" of the domain of the integer variable which will be dynamically created. | |
SCIP_RETCODE | SCIPcreateConsLinking (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *intvar, SCIP_VAR **binvars, int *vals, int nbinvars, 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 | SCIPcreateConsBasicLinking (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *intvar, SCIP_VAR **binvars, int *vals, int nbinvars) |
SCIP_Bool | SCIPexistsConsLinking (SCIP *scip, SCIP_VAR *intvar) |
SCIP_CONS * | SCIPgetConsLinking (SCIP *scip, SCIP_VAR *intvar) |
SCIP_VAR * | SCIPgetIntvarLinking (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPgetBinvarsLinking (SCIP *scip, SCIP_CONS *cons, SCIP_VAR ***binvars, int *nbinvars) |
int | SCIPgetNBinvarsLinking (SCIP *scip, SCIP_CONS *cons) |
int * | SCIPgetValsLinking (SCIP *scip, SCIP_CONS *cons) |
Logicor Constraints | |
This constraint handler handles a special type of linear constraints, namely logic or constraints. These are equivalent to set covering constraints, but are handled by special algorithms which are better suited for depth first search. For a set of binary variables \(x_i, i=1,\dots,n\), a logic or constraint has the form \[ \sum_{i=1}^n x_i \ge 1. \] | |
SCIP_RETCODE | SCIPcreateConsLogicor (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicLogicor (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars) |
SCIP_RETCODE | SCIPaddCoefLogicor (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var) |
int | SCIPgetNVarsLogicor (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsLogicor (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualsolLogicor (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualfarkasLogicor (SCIP *scip, SCIP_CONS *cons) |
SCIP_ROW * | SCIPgetRowLogicor (SCIP *scip, SCIP_CONS *cons) |
Nonlinear Constraints | |
This constraint handler handles constraints of the form \[ \textrm{lhs} \leq \sum_{i=1}^n a_ix_i + \sum_{j=1}^m c_jf_j(x) \leq \textrm{rhs}, \] where \(a_i\) and \(c_j\) are coefficients and \(f_j(x)\) are nonlinear functions (given as expression tree). Constraints are enforced by separation, domain propagation, and spatial branching. For convex or concave \(f_j(x)\), cuts that separate on the convex hull of the function graph are implemented. For \(f_j(x)\) that are not known to be convex or concave, a simple variant of linear estimation based on interval gradients is implemented. Branching is performed for variables in nonconvex terms, if the relaxation solution cannot be separated. This header offers the upgrade functionality to upgrade a general nonlinear constraint into a more specific constraint via SCIP_DECL_NONLINCONSUPGD(). Furthermore, the definition of callbacks used to reformulate an expression graph is offered by SCIP_DECL_EXPRGRAPHNODEREFORM(). Further, the function representation is stored in an expression graph, which allows to propagate variable domains and constraint sides and offers a simple convexity check. During presolve, the expression graph is reformulated, whereby new variables and constraints are created such that for the remaining nonlinear constraints the functions \(f_j(x)\) are known to be convex or concave. See also
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SCIP_RETCODE | SCIPincludeNonlinconsUpgrade (SCIP *scip, SCIP_DECL_NONLINCONSUPGD((*nonlinconsupgd)), SCIP_DECL_EXPRGRAPHNODEREFORM((*nodereform)), int priority, SCIP_Bool active, const char *conshdlrname) |
SCIP_RETCODE | SCIPcreateConsNonlinear (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nexprtrees, SCIP_EXPRTREE **exprtrees, SCIP_Real *nonlincoefs, 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 | SCIPcreateConsBasicNonlinear (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nexprtrees, SCIP_EXPRTREE **exprtrees, SCIP_Real *nonlincoefs, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_RETCODE | SCIPcreateConsNonlinear2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, SCIP_EXPRGRAPHNODE *exprgraphnode, 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 | SCIPcreateConsBasicNonlinear2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, SCIP_EXPRGRAPHNODE *exprgraphnode, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_RETCODE | SCIPaddLinearVarNonlinear (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPsetExprtreesNonlinear (SCIP *scip, SCIP_CONS *cons, int nexprtrees, SCIP_EXPRTREE **exprtrees, SCIP_Real *coefs) |
SCIP_RETCODE | SCIPaddExprtreesNonlinear (SCIP *scip, SCIP_CONS *cons, int nexprtrees, SCIP_EXPRTREE **exprtrees, SCIP_Real *coefs) |
SCIP_RETCODE | SCIPgetNlRowNonlinear (SCIP *scip, SCIP_CONS *cons, SCIP_NLROW **nlrow) |
int | SCIPgetNLinearVarsNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetLinearVarsNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetLinearCoefsNonlinear (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetNExprtreesNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_EXPRTREE ** | SCIPgetExprtreesNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetExprtreeCoefsNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_EXPRGRAPHNODE * | SCIPgetExprgraphNodeNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLhsNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPcheckCurvatureNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPgetCurvatureNonlinear (SCIP *scip, SCIP_CONS *cons, SCIP_Bool checkcurv, SCIP_EXPRCURV *curvature) |
SCIP_RETCODE | SCIPgetExprtreeCurvaturesNonlinear (SCIP *scip, SCIP_CONS *cons, SCIP_Bool checkcurv, SCIP_EXPRCURV **curvatures) |
SCIP_RETCODE | SCIPgetViolationNonlinear (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Real *violation) |
int | SCIPgetLinvarMayDecreaseNonlinear (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetLinvarMayIncreaseNonlinear (SCIP *scip, SCIP_CONS *cons) |
SCIP_EXPRGRAPH * | SCIPgetExprgraphNonlinear (SCIP *scip, SCIP_CONSHDLR *conshdlr) |
SCIP_RETCODE | SCIPcomputeHyperplaneThreePoints (SCIP *scip, SCIP_Real a1, SCIP_Real a2, SCIP_Real a3, SCIP_Real b1, SCIP_Real b2, SCIP_Real b3, SCIP_Real c1, SCIP_Real c2, SCIP_Real c3, SCIP_Real *alpha, SCIP_Real *beta, SCIP_Real *gamma_, SCIP_Real *delta) |
OR Constraints | |
This constraint handler deals with OR constraint. These are constraint of the form: \[ r = x_1 \vee x_2 \vee \dots \vee x_n \] where \(x_i\) is a binary variable for all \(i\). Hence, \(r\) is also of binary type. The variable \(r\) is called resultant and the \(x\)'s operators. | |
SCIP_RETCODE | SCIPcreateConsOr (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *resvar, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicOr (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *resvar, int nvars, SCIP_VAR **vars) |
int | SCIPgetNVarsOr (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsOr (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetResultantOr (SCIP *scip, SCIP_CONS *cons) |
Orbisack Constraints | |
This constraint handler can be used to handle symmetries in certain 0/1-programs. The principle structure is that some variables can be ordered in matrix form with two columns, such that permuting both columns does not change the validity and objective function value of a solution. That is, there exists a permutation symmetry of the program that permutes the variables of the first and second column row-wise. In more mathematical terms the structure has to be as follows: There are 0/1-variables \(x_{ij}\), \(i \in \{1, \dots, n\}\), \(j \in \{1, 2\}\). Permuting columns of \(x\) does not change the validity and objective function value of any feasible solution. | |
SCIP_RETCODE | SCIPseparateCoversOrbisack (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_VAR **vars1, SCIP_VAR **vars2, int nrows, SCIP_Bool *infeasible, int *ngen) |
SCIP_RETCODE | SCIPcheckSolutionOrbisack (SCIP *scip, SCIP_SOL *sol, SCIP_VAR **vars1, SCIP_VAR **vars2, int nrows, SCIP_Bool printreason, SCIP_Bool *feasible) |
SCIP_RETCODE | SCIPcreateConsOrbisack (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *const *vars1, SCIP_VAR *const *vars2, int nrows, SCIP_Bool ispporbisack, SCIP_Bool isparttype, 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 | SCIPcreateConsBasicOrbisack (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR **vars1, SCIP_VAR **vars2, int nrows, SCIP_Bool ispporbisack, SCIP_Bool isparttype) |
Orbitope Constraints | |
This constraint handler can be used to handle symmetries in certain 0/1-programs. The principle structure is that some variables can be ordered in matrix form, such that permuting columns does not change the validity and objective function value of a solution. That is, the symmetry group of the program contains the full symmetric group obtained by permuting the columns of this matrix. These symmetries can be handled by so-called full orbitopes. Moreover, if the variables in each row are contained in set packing or partitioning constraint, these symmetries can be handled by specialized packing or partitioning orbitopes. In more mathematical terms the structure has to be as follows: There are 0/1-variables \(x_{ij}\), \(i \in \{1, \dots, p\}\), \(j \in \{1, \dots, q\}\). The variables may be coupled through set packing or partitioning constraints: \[ \sum_{j = 1}^q x_{ij} \leq 1 \quad \mbox{or} \quad \sum_{j = 1}^q x_{ij} = 1 \quad \mbox{for all }i = 1, \ldots, p. \] Permuting columns of \(x\) does not change the validity and objective function value of any feasible solution. | |
enum | SCIP_OrbitopeType { SCIP_ORBITOPETYPE_FULL = 0, SCIP_ORBITOPETYPE_PARTITIONING = 1, SCIP_ORBITOPETYPE_PACKING = 2 } |
typedef enum SCIP_OrbitopeType | SCIP_ORBITOPETYPE |
SCIP_RETCODE | SCIPcreateConsOrbitope (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR ***vars, SCIP_ORBITOPETYPE orbitopetype, int nspcons, int nblocks, SCIP_Bool resolveprop, 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 | SCIPcreateConsBasicOrbitope (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR ***vars, SCIP_ORBITOPETYPE orbitopetype, int nspcons, int nblocks, SCIP_Bool resolveprop) |
Pseudoboolean Constraints | |
The constraint handler deals with pseudo boolean constraints. These are constraints of the form \[ \mbox{lhs} \leq \sum_{k=0}^m c_k \cdot x_k + \sum_{i=0}^n c_i \cdot \prod_{j \in I_i} x_j \leq \mbox{rhs} \] where all \(x\) are binary and all \(c\) are integer. | |
enum | SCIP_LinearConsType { SCIP_LINEARCONSTYPE_INVALIDCONS = -1, SCIP_LINEARCONSTYPE_LINEAR = 0, SCIP_LINEARCONSTYPE_LOGICOR = 1, SCIP_LINEARCONSTYPE_KNAPSACK = 2, SCIP_LINEARCONSTYPE_SETPPC = 3 } |
typedef enum SCIP_LinearConsType | SCIP_LINEARCONSTYPE |
SCIP_RETCODE | SCIPcreateConsPseudobooleanWithConss (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_CONS *lincons, SCIP_LINEARCONSTYPE linconstype, SCIP_CONS **andconss, SCIP_Real *andcoefs, int nandconss, SCIP_VAR *indvar, SCIP_Real weight, SCIP_Bool issoftcons, SCIP_VAR *intvar, 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 | SCIPcreateConsPseudoboolean (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR **linvars, int nlinvars, SCIP_Real *linvals, SCIP_VAR ***terms, int nterms, int *ntermvars, SCIP_Real *termvals, SCIP_VAR *indvar, SCIP_Real weight, SCIP_Bool issoftcons, SCIP_VAR *intvar, 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 | SCIPcreateConsBasicPseudoboolean (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR **linvars, int nlinvars, SCIP_Real *linvals, SCIP_VAR ***terms, int nterms, int *ntermvars, SCIP_Real *termvals, SCIP_VAR *indvar, SCIP_Real weight, SCIP_Bool issoftcons, SCIP_VAR *intvar, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_RETCODE | SCIPaddCoefPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_VAR *const var, SCIP_Real const val) |
SCIP_RETCODE | SCIPaddTermPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_VAR **const vars, int const nvars, SCIP_Real const val) |
SCIP_VAR * | SCIPgetIndVarPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
SCIP_CONS * | SCIPgetLinearConsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
SCIP_LINEARCONSTYPE | SCIPgetLinearConsTypePseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
int | SCIPgetNLinVarsWithoutAndPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
SCIP_RETCODE | SCIPgetLinDatasWithoutAndPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_VAR **const linvars, SCIP_Real *const lincoefs, int *const nlinvars) |
SCIP_RETCODE | SCIPgetAndDatasPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_CONS **const andconss, SCIP_Real *const andcoefs, int *const nandconss) |
int | SCIPgetNAndsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
SCIP_RETCODE | SCIPchgLhsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_Real const lhs) |
SCIP_RETCODE | SCIPchgRhsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons, SCIP_Real const rhs) |
SCIP_Real | SCIPgetLhsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
SCIP_Real | SCIPgetRhsPseudoboolean (SCIP *const scip, SCIP_CONS *const cons) |
Quadratic Constraints | |
This constraint handler handles constraints of the form \[ \textrm{lhs} \leq \sum_{i,j=1}^n a_{i,j} x_ix_j + \sum_{i=1}^n b_i x_i \leq \textrm{rhs} \] Constraints are enforced by separation, domain propagation, and spatial branching. For semidefinite matrices \(A=(a_{i,j})_{i,j}\), cuts based on linearization of \(\langle x, Ax\rangle\) are implemented. For underestimating a non-convex term, McCormick underestimators and secants for univariate concave quadratic terms are implemented. If \(\langle x, Ax\rangle\) is factorable (i.e., can be written as product of two linear functions), specialized separation techniques (e.g., lifted tangent inequalities) that take the constraint sides into account are applied. Branching is performed for variables in nonconvex terms, if the relaxation solution cannot be separated. Further, domain propagation is applied. During presolve, variable products which contain binary variables may be reformulated into linear constraints, thereby introducing new variables. See also
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typedef struct SCIP_QuadVarEventData | SCIP_QUADVAREVENTDATA |
typedef struct SCIP_QuadVarTerm | SCIP_QUADVARTERM |
typedef struct SCIP_BilinTerm | SCIP_BILINTERM |
typedef struct SCIP_RowPrep | SCIP_ROWPREP |
SCIP_RETCODE | SCIPincludeQuadconsUpgrade (SCIP *scip, SCIP_DECL_QUADCONSUPGD((*quadconsupgd)), int priority, SCIP_Bool active, const char *conshdlrname) |
SCIP_RETCODE | SCIPcreateConsQuadratic (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nquadterms, SCIP_VAR **quadvars1, SCIP_VAR **quadvars2, SCIP_Real *quadcoeffs, 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_RETCODE | SCIPcreateConsBasicQuadratic (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nquadterms, SCIP_VAR **quadvars1, SCIP_VAR **quadvars2, SCIP_Real *quadcoefs, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_RETCODE | SCIPcreateConsQuadratic2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nquadvarterms, SCIP_QUADVARTERM *quadvarterms, int nbilinterms, SCIP_BILINTERM *bilinterms, 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_RETCODE | SCIPcreateConsBasicQuadratic2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nquadvarterms, SCIP_QUADVARTERM *quadvarterms, int nbilinterms, SCIP_BILINTERM *bilinterms, SCIP_Real lhs, SCIP_Real rhs) |
void | SCIPaddConstantQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_Real constant) |
SCIP_RETCODE | SCIPaddLinearVarQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPaddQuadVarQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real lincoef, SCIP_Real sqrcoef) |
SCIP_RETCODE | SCIPaddQuadVarLinearCoefQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPaddSquareCoefQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPaddBilinTermQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var1, SCIP_VAR *var2, SCIP_Real coef) |
SCIP_RETCODE | SCIPgetNlRowQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_NLROW **nlrow) |
int | SCIPgetNLinearVarsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetLinearVarsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetCoefsLinearVarsQuadratic (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetNQuadVarTermsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_QUADVARTERM * | SCIPgetQuadVarTermsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPsortQuadVarTermsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPfindQuadVarTermQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, int *pos) |
int | SCIPgetNBilinTermsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_BILINTERM * | SCIPgetBilinTermsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLhsQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsQuadratic (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetLinvarMayDecreaseQuadratic (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetLinvarMayIncreaseQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPcheckCurvatureQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_Bool | SCIPisConvexQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_Bool | SCIPisConcaveQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPgetViolationQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Real *violation) |
SCIP_Bool | SCIPisLinearLocalQuadratic (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPaddToNlpiProblemQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_NLPI *nlpi, SCIP_NLPIPROBLEM *nlpiprob, SCIP_HASHMAP *scipvar2nlpivar, SCIP_Bool names) |
SCIP_RETCODE | SCIPchgLhsQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_Real lhs) |
SCIP_RETCODE | SCIPchgRhsQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_Real rhs) |
SCIP_RETCODE | SCIPgetFeasibilityQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Real *feasibility) |
SCIP_RETCODE | SCIPgetActivityQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Real *activity) |
SCIP_RETCODE | SCIPchgLinearCoefQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPchgSquareCoefQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real coef) |
SCIP_RETCODE | SCIPchgBilinCoefQuadratic (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var1, SCIP_VAR *var2, SCIP_Real coef) |
int | SCIPgetNAllBilinearTermsQuadratic (SCIP *scip) |
SCIP_RETCODE | SCIPgetAllBilinearTermsQuadratic (SCIP *scip, SCIP_VAR **RESTRICT x, SCIP_VAR **RESTRICT y, int *RESTRICT nbilinterms, int *RESTRICT nunderests, int *RESTRICT noverests, SCIP_Real *maxnonconvexity) |
SCIP_RETCODE | SCIPaddBilinearIneqQuadratic (SCIP *scip, SCIP_VAR *x, SCIP_VAR *y, int idx, SCIP_Real xcoef, SCIP_Real ycoef, SCIP_Real constant, SCIP_Bool *success) |
#define | SCIP_DECL_QUADCONSUPGD(x) |
Set Packing/Partitioning/Covering Constraints | |
This constraint handler handles three special classes of linear constraints, namely set partitioning, set packing, and set covering constraints. For a set of binary variables \(x_i, i=1,\dots,n\), a set partitioning constraint has the form \[ \sum_{i=1}^n x_i = 1, \] a set packing constraint has the form \[ \sum_{i=1}^n x_i \le 1, \] and a set covering constraint has the form \[ \sum_{i=1}^n x_i \ge 1. \] | |
enum | SCIP_SetppcType { SCIP_SETPPCTYPE_PARTITIONING = 0, SCIP_SETPPCTYPE_PACKING = 1, SCIP_SETPPCTYPE_COVERING = 2 } |
typedef enum SCIP_SetppcType | SCIP_SETPPCTYPE |
SCIP_RETCODE | SCIPcreateConsSetpart (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicSetpart (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars) |
SCIP_RETCODE | SCIPcreateConsSetpack (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicSetpack (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars) |
SCIP_RETCODE | SCIPcreateConsSetcover (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicSetcover (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars) |
SCIP_RETCODE | SCIPaddCoefSetppc (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var) |
int | SCIPgetNVarsSetppc (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsSetppc (SCIP *scip, SCIP_CONS *cons) |
SCIP_SETPPCTYPE | SCIPgetTypeSetppc (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualsolSetppc (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualfarkasSetppc (SCIP *scip, SCIP_CONS *cons) |
SCIP_ROW * | SCIPgetRowSetppc (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetNFixedonesSetppc (SCIP *scip, SCIP_CONS *cons) |
int | SCIPgetNFixedzerosSetppc (SCIP *scip, SCIP_CONS *cons) |
Second Order Cone Constraints | |
This constraint handler implements second order cone constraints of the form \[ \sqrt{\gamma + \sum_{i=1}^{n} (\alpha_i\, (x_i + \beta_i))^2} \leq \alpha_{n+1}\, (x_{n+1}+\beta_{n+1}) \] Here, \(\gamma \geq 0\) and either \(x_{n+1} \geq -\beta_{n+1}, \alpha_{n+1} \geq 0\) or \(x_{n+1} \leq -\beta_{n+1}, \alpha_{n+1} \leq 0\). Constraints are enforced by separation, where cuts are generated by linearizing the (convex) nonlinear function on the left-hand-side of the constraint. Further, a linear outer-approximation (which includes new variables) based on Ben-Tal & Nemirovski or Glineur can be added. See also
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SCIP_RETCODE | SCIPcreateConsSOC (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *coefs, SCIP_Real *offsets, SCIP_Real constant, SCIP_VAR *rhsvar, SCIP_Real rhscoeff, SCIP_Real rhsoffset, 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_RETCODE | SCIPcreateConsBasicSOC (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *coefs, SCIP_Real *offsets, SCIP_Real constant, SCIP_VAR *rhsvar, SCIP_Real rhscoeff, SCIP_Real rhsoffset) |
SCIP_RETCODE | SCIPgetNlRowSOC (SCIP *scip, SCIP_CONS *cons, SCIP_NLROW **nlrow) |
int | SCIPgetNLhsVarsSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetLhsVarsSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetLhsCoefsSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetLhsOffsetsSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetLhsConstantSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetRhsVarSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsCoefSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsOffsetSOC (SCIP *scip, SCIP_CONS *cons) |
SCIP_RETCODE | SCIPaddToNlpiProblemSOC (SCIP *scip, SCIP_CONS *cons, SCIP_NLPI *nlpi, SCIP_NLPIPROBLEM *nlpiprob, SCIP_HASHMAP *scipvar2nlpivar, SCIP_Bool names) |
Specially Ordered Set (SOS) Type 1 Constraints | |
A specially ordered set of type 1 (SOS1) is a sequence of variables such that at most one variable is nonzero. The special case of two variables arises, for instance, from equilibrium or complementary conditions like \(x \cdot y = 0\). Note that it is in principle allowed that a variable appears twice, but it then can be fixed to 0. | |
SCIP_RETCODE | SCIPcreateConsSOS1 (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *weights, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicSOS1 (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *weights) |
SCIP_RETCODE | SCIPaddVarSOS1 (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real weight) |
SCIP_RETCODE | SCIPappendVarSOS1 (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var) |
int | SCIPgetNVarsSOS1 (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsSOS1 (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetWeightsSOS1 (SCIP *scip, SCIP_CONS *cons) |
SCIP_DIGRAPH * | SCIPgetConflictgraphSOS1 (SCIP_CONSHDLR *conshdlr) |
int | SCIPgetNSOS1Vars (SCIP_CONSHDLR *conshdlr) |
SCIP_Bool | SCIPvarIsSOS1 (SCIP_CONSHDLR *conshdlr, SCIP_VAR *var) |
int | SCIPvarGetNodeSOS1 (SCIP_CONSHDLR *conshdlr, SCIP_VAR *var) |
SCIP_VAR * | SCIPnodeGetVarSOS1 (SCIP_DIGRAPH *conflictgraph, int node) |
SCIP_RETCODE | SCIPmakeSOS1sFeasible (SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, SCIP_Bool *changed, SCIP_Bool *success) |
Specially Ordered Set (SOS) Type 2 Constraints | |
A specially ordered set of type 2 (SOS2) is a sequence of variables such that at most two variables are nonzero and if two variables are nonzero they must be adjacent in the specified sequence. Note that it is in principle allowed that a variable appears twice, but it then can be fixed to 0 if it is at least two apart in the sequence. | |
SCIP_RETCODE | SCIPcreateConsSOS2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *weights, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicSOS2 (SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *weights) |
SCIP_RETCODE | SCIPaddVarSOS2 (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real weight) |
SCIP_RETCODE | SCIPappendVarSOS2 (SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var) |
int | SCIPgetNVarsSOS2 (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsSOS2 (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real * | SCIPgetWeightsSOS2 (SCIP *scip, SCIP_CONS *cons) |
Superindicator Constraints | |
Superindicator constraints are constraints of the form \[ x_i = 1 \Rightarrow C(x) \] where \( x_i \) is a binary variable and \( C(\dot) \) a constraint. The superindicator constraint is satisfied if and only if x_i is zero or C is satisfied. | |
SCIP_RETCODE | SCIPcreateConsSuperindicator (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, SCIP_CONS *slackcons, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode) |
SCIP_RETCODE | SCIPcreateConsBasicSuperindicator (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *binvar, SCIP_CONS *slackcons) |
SCIP_VAR * | SCIPgetBinaryVarSuperindicator (SCIP_CONS *cons) |
SCIP_CONS * | SCIPgetSlackConsSuperindicator (SCIP_CONS *cons) |
SCIP_RETCODE | SCIPtransformMinUC (SCIP *scip, SCIP_Bool *success) |
SCIP_DECL_DIALOGEXEC (SCIPdialogExecChangeMinUC) | |
Symresack Constraints | |
Given a permutation that acts on the order of the variables of a (mixed) 0/1-program such that the permutation is a symmetry of the program, this constraint handler can be used to handle the symmetries corresponding to the permutation. The symmetries are handled by enforcing that a binary solution is lexicographically not smaller than its permutation. In a presolving step, we check whether the permutation acts only on binary points. Otherwise, we eliminate the non-binary variables from the permutation. Furthermore, we delete fixed points from the permutation. Moreover, the constraint handler checks whether each cycle of the permutation is contained in a set packing or partitioning constraint. In this case, the symresack is strengthened to a ppsymresack and strong symmetry handling inequalities are added during the initialization of the constraint handler.
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SCIP_RETCODE | SCIPcreateSymbreakCons (SCIP *scip, SCIP_CONS **cons, const char *name, int *perm, SCIP_VAR **vars, int nvars, 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 | SCIPcreateConsSymresack (SCIP *scip, SCIP_CONS **cons, const char *name, int *perm, SCIP_VAR **vars, int nvars, 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 | SCIPcreateConsBasicSymresack (SCIP *scip, SCIP_CONS **cons, const char *name, int *perm, SCIP_VAR **vars, int nvars) |
Variable Bound Constraints | |
This constraint handler handles a special type of linear constraints, namely variable bound constraints. A variable bound constraint has the form \[ lhs \leq x + c y \leq rhs \] with coefficient \(c \in Q\), \(lhs\in Q \cup \{-\infty\}\), \(rhs\in Q \cup \{\infty\}\), and decision variables \(x\) (non-binary) and \(y\) (binary or integer). | |
SCIP_RETCODE | SCIPcreateConsVarbound (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *var, SCIP_VAR *vbdvar, SCIP_Real vbdcoef, 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 | SCIPcreateConsBasicVarbound (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_VAR *var, SCIP_VAR *vbdvar, SCIP_Real vbdcoef, SCIP_Real lhs, SCIP_Real rhs) |
SCIP_Real | SCIPgetLhsVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetRhsVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetVarVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetVbdvarVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetVbdcoefVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualsolVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_Real | SCIPgetDualfarkasVarbound (SCIP *scip, SCIP_CONS *cons) |
SCIP_ROW * | SCIPgetRowVarbound (SCIP *scip, SCIP_CONS *cons) |
XOR Constraints | |
This constraint handler deals with "xor" constraint. These are constraint of the form: \[ rhs = x_1 \oplus x_2 \oplus \dots \oplus x_n \] where \(x_i\) is a binary variable for all \(i\) and \(rhs\) is bool. The variables \(x\)'s are called operators. This constraint is satisfied if \(rhs\) is TRUE and an odd number of the operators are TRUE or if the \(rhs\) is FALSE and a even number of operators are TRUE. Hence, if the sum of \(rhs\) and operators is even. | |
SCIP_RETCODE | SCIPcreateConsXor (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_Bool rhs, int nvars, SCIP_VAR **vars, 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 | SCIPcreateConsBasicXor (SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_Bool rhs, int nvars, SCIP_VAR **vars) |
int | SCIPgetNVarsXor (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR ** | SCIPgetVarsXor (SCIP *scip, SCIP_CONS *cons) |
SCIP_VAR * | SCIPgetIntVarXor (SCIP *scip, SCIP_CONS *cons) |
SCIP_Bool | SCIPgetRhsXor (SCIP *scip, SCIP_CONS *cons) |
Macro Definition Documentation
◆ SCIP_DECL_SOLVECUMULATIVE
#define SCIP_DECL_SOLVECUMULATIVE | ( | x | ) |
solves given cumulative condition as independent sub problem
- Note
- The time and memory limit should be respected.
- If the problem was solved to the earliest start times (ests) and latest start times (lsts) array contain the solution values; If the problem was not solved these two arrays contain the global bounds at the time the sub solver was interrupted.
input:
- njobs : number of jobs (activities)
- objvals : array of objective coefficients for each job (linear objective function), or NULL if none
- durations : array of durations
- demands : array of demands
- capacity : cumulative capacity
- hmin : left bound of time axis to be considered (including hmin)
- hmax : right bound of time axis to be considered (not including hmax)
- timelimit : time limit for solving in seconds
- memorylimit : memory limit for solving in mega bytes (MB)
- maxnodes : maximum number of branch-and-bound nodes to solve the single cumulative constraint (-1: no limit)
input/output:
- ests : array of earliest start times for each job
- lsts : array of latest start times for each job
output:
- solved : pointer to store if the problem is solved (to optimality)
- infeasible : pointer to store if the problem is infeasible
- unbounded : pointer to store if the problem is unbounded
- error : pointer to store if an error occurred
Definition at line 347 of file cons_cumulative.h.
◆ SCIP_DECL_LINCONSUPGD
#define SCIP_DECL_LINCONSUPGD | ( | x | ) |
upgrading method for linear constraints into more specific constraints
input:
- scip : SCIP main data structure
- cons : the linear constraint to upgrade
- nvars : number of variables in the constraint
- vars : array with constraint variables
- vals : array with constraint coefficients
- lhs : left hand side of linear constraint
- rhs : right hand side of linear constraint
- nposbin : number of binary variables with positive coefficient
- nnegbin : number of binary variables with negative coefficient
- nposint : number of integer variables with positive coefficient
- nnegint : number of integer variables with negative coefficient
- nposimpl : number of implicit integer variables with positive coefficient (including implicit binary variables)
- nnegimpl : number of implicit integer variables with negative coefficient (including implicit binary variables)
- nposimplbin : number of implicit binary variables with positive coefficient
- nnegimplbin : number of implicit binary variables with negative coefficient
- nposcont : number of continuous variables with positive coefficient
- nnegcont : number of continuous variables with negative coefficient
- ncoeffspone : number of +1 coefficients
- ncoeffsnone : number of -1 coefficients
- ncoeffspint : number of positive integral coefficients other than +1
- ncoeffsnint : number of negative integral coefficients other than -1
- ncoeffspfrac : number of positive fractional coefficients
- ncoeffsnfrac : number of negative fractional coefficients
- poscoeffsum : sum of all positive coefficients
- negcoeffsum : sum of all negative coefficients
- integral : TRUE iff constraints activity value is always integral
- upgdcons : pointer to store the upgraded constraint
Definition at line 111 of file cons_linear.h.
Referenced by consdataEnsureVarsSize().
◆ SCIP_DECL_QUADCONSUPGD
#define SCIP_DECL_QUADCONSUPGD | ( | x | ) |
upgrading method for quadratic constraints into more specific constraints
the method might upgrade a quadratic constraint into a set of quadratic constraints the caller provided an array upgdconss to store upgrade constraints the length of upgdconss is given by upgdconsssize if an upgrade is not possible, set *nupgdconss to zero if more than upgdconsssize many constraints shall replace cons, the function should return the required number as negated value in *nupgdconss i.e., if cons should be replaced by 3 constraints, the function should set *nupgdconss to -3 and return with SCIP_OKAY
input:
- scip : SCIP main data structure
- cons : the quadratic constraint to upgrade
- nbinlin : number of binary variables in linear part
- nbinquad : number of binary variables in quadratic part
- nintlin : number of integer variables in linear part
- nintquad : number of integer variables in quadratic part
- nimpllin : number of implicit integer variables in linear part
- nimplquad : number of implicit integer variables in quadratic part
- ncontlin : number of continuous variables in linear part
- ncontquad : number of continuous variables in quadratic part
- integral : TRUE iff constraints activity value is always integral
- nupgdconss : pointer to store number of constraints that replace this constraint
- upgdconss : array to store constraints that replace this constraint
- upgdconsssize : length of the provided upgdconss array
- presoltiming : current presolve timing
Definition at line 175 of file cons_quadratic.h.
Typedef Documentation
◆ SCIP_LINCONSUPGRADE
typedef struct SCIP_LinConsUpgrade SCIP_LINCONSUPGRADE |
linear constraint update method
Definition at line 78 of file cons_linear.h.
◆ SCIP_ORBITOPETYPE
typedef enum SCIP_OrbitopeType SCIP_ORBITOPETYPE |
Definition at line 82 of file cons_orbitope.h.
◆ SCIP_LINEARCONSTYPE
typedef enum SCIP_LinearConsType SCIP_LINEARCONSTYPE |
Definition at line 81 of file cons_pseudoboolean.h.
◆ SCIP_QUADVAREVENTDATA
typedef struct SCIP_QuadVarEventData SCIP_QUADVAREVENTDATA |
event data for variable bound changes in quadratic constraints
Definition at line 100 of file cons_quadratic.h.
◆ SCIP_QUADVARTERM
typedef struct SCIP_QuadVarTerm SCIP_QUADVARTERM |
Definition at line 116 of file cons_quadratic.h.
◆ SCIP_BILINTERM
typedef struct SCIP_BilinTerm SCIP_BILINTERM |
Definition at line 127 of file cons_quadratic.h.
◆ SCIP_ROWPREP
typedef struct SCIP_RowPrep SCIP_ROWPREP |
Definition at line 145 of file cons_quadratic.h.
◆ SCIP_SETPPCTYPE
typedef enum SCIP_SetppcType SCIP_SETPPCTYPE |
Definition at line 82 of file cons_setppc.h.
Enumeration Type Documentation
◆ SCIP_BIVAR_CONVEXITY
enum SCIP_BIVAR_CONVEXITY |
Enumerator | |
---|---|
SCIP_BIVAR_ALLCONVEX | |
SCIP_BIVAR_1CONVEX_INDEFINITE | |
SCIP_BIVAR_CONVEX_CONCAVE | |
SCIP_BIVAR_UNKNOWN |
Definition at line 74 of file cons_bivariate.h.
◆ SCIP_OrbitopeType
enum SCIP_OrbitopeType |
type of orbitope constraint: full, packing, or partitioning orbitope
Definition at line 76 of file cons_orbitope.h.
◆ SCIP_LinearConsType
enum SCIP_LinearConsType |
solution status after solving LP
Definition at line 68 of file cons_pseudoboolean.h.
◆ SCIP_SetppcType
enum SCIP_SetppcType |
type of setppc constraint: set partitioning, set packing, or set covering
Definition at line 76 of file cons_setppc.h.
Function Documentation
◆ SCIPcreateConsAbspower()
SCIP_RETCODE SCIPcreateConsAbspower | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | x, | ||
SCIP_VAR * | z, | ||
SCIP_Real | exponent, | ||
SCIP_Real | xoffset, | ||
SCIP_Real | zcoef, | ||
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 | ||
) |
creates and captures a absolute power constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint x nonlinear variable x in constraint z linear variable z in constraint exponent exponent n of |x+offset|^n term in constraint xoffset offset in |x+offset|^n term in constraint zcoef coefficient of z in constraint lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 7172 of file cons_abspower.c.
References BMSclearMemory, CONSHDLR_NAME, NULL, pow(), REALABS, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPallocBlockMemory, SCIPcreateCons(), SCIPcreateConsBasicAbspower(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPisEQ(), SCIPisInfinity(), SCIPisZero(), SCIPmarkDoNotMultaggrVar(), SCIPvarIsActive(), square(), and x.
Referenced by presolveFindDuplicates(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIP_DECL_EXPRGRAPHNODEREFORM(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPcreateConsBasicAbspower(), and SCIPincludeConshdlrAbspower().
◆ SCIPcreateConsBasicAbspower()
SCIP_RETCODE SCIPcreateConsBasicAbspower | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | x, | ||
SCIP_VAR * | z, | ||
SCIP_Real | exponent, | ||
SCIP_Real | xoffset, | ||
SCIP_Real | zcoef, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures an absolute power constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsAbspower(); all flags can be set via SCIPconsSetFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsAbspower() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an absolute power constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsAbspower(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsAbspower() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint x nonlinear variable x in constraint z linear variable z in constraint exponent exponent n of |x+offset|^n term in constraint xoffset offset in |x+offset|^n term in constraint zcoef coefficient of z in constraint lhs left hand side of constraint rhs right hand side of constraint
Definition at line 7273 of file cons_abspower.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsAbspower(), SCIPgetNlRowAbspower(), and TRUE.
Referenced by SCIPcreateConsAbspower(), and setupProblem().
◆ SCIPgetNlRowAbspower()
SCIP_RETCODE SCIPgetNlRowAbspower | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLROW ** | nlrow | ||
) |
gets the absolute power constraint as a nonlinear row representation
- Parameters
-
scip SCIP data structure cons constraint nlrow a buffer where to store pointer to nonlinear row
Definition at line 7295 of file cons_abspower.c.
References CONSHDLR_NAME, createNlRow(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetNonlinearVarAbspower().
Referenced by SCIPcreateConsBasicAbspower().
◆ SCIPgetNonlinearVarAbspower()
gets nonlinear variable x in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7321 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetLinearVarAbspower().
Referenced by SCIPgetNlRowAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLinearVarAbspower()
gets linear variable z in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7338 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetExponentAbspower().
Referenced by SCIPgetNonlinearVarAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetExponentAbspower()
gets exponent in power term in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7355 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetOffsetAbspower().
Referenced by SCIPgetLinearVarAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetOffsetAbspower()
gets offset in power term in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7372 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetCoefLinearAbspower().
Referenced by SCIPgetExponentAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetCoefLinearAbspower()
gets coefficient of linear variable in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7389 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetLhsAbspower().
Referenced by SCIPgetOffsetAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLhsAbspower()
gets left hand side in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7406 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetRhsAbspower().
Referenced by SCIPgetCoefLinearAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetRhsAbspower()
gets right hand side in absolute power constraint
- Parameters
-
scip SCIP data structure cons absolute power constraint
Definition at line 7423 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetViolationAbspower().
Referenced by SCIPgetLhsAbspower(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetViolationAbspower()
gets the absolute violation of a absolute power constraint by a solution
- Parameters
-
scip SCIP data structure cons absolute power constraint sol LP solution
Definition at line 7440 of file cons_abspower.c.
References CONSHDLR_NAME, NULL, pow(), REALABS, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPgetSolVal(), and SIGN.
Referenced by SCIPgetRhsAbspower().
◆ SCIPcreateConsAnd()
SCIP_RETCODE SCIPcreateConsAnd | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | resvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures an and constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a AND-constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint resvar resultant variable of the operation nvars number of operator variables in the constraint vars array with operator variables of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 5003 of file cons_and.c.
References ARTIFICIALVARNAMEPREFIX, consdataCreate(), CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_VARTYPE_BINARY, SCIP_VARTYPE_IMPLINT, SCIPchgVarType(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicAnd(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPisTransformed(), SCIPvarGetName(), SCIPvarGetProbvar(), and SCIPvarGetType().
Referenced by CREATE_CONSTRAINT(), createAndAddAndCons(), extractGates(), findAggregation(), presolveTryAddAND(), presolveTryAddLinearReform(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIP_DECL_EXPRGRAPHNODEREFORM(), SCIPcreateConsBasicAnd(), SCIPincludeConshdlrAnd(), setObjective(), and upgradeCons().
◆ SCIPcreateConsBasicAnd()
SCIP_RETCODE SCIPcreateConsBasicAnd | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | resvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures an and constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsAnd(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsAnd() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an AND-constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsAnd(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsAnd() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint resvar resultant variable of the operation nvars number of operator variables in the constraint vars array with operator variables of constraint
Definition at line 5113 of file cons_and.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsAnd(), SCIPgetNVarsAnd(), and TRUE.
Referenced by SCIPcreateConsAnd().
◆ SCIPgetNVarsAnd()
gets number of variables in and constraint
gets number of variables in AND-constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5132 of file cons_and.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsAnd().
Referenced by checkAndConss(), checkOrigPbCons(), chgLhs(), chgRhs(), computeAndConstraintInfos(), computeConsAndDataChanges(), computeSymmetryGroup(), consdataFree(), consdataPrint(), countNonlinearities(), createCoveringProblem(), printAndCons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSGETNVARS(), SCIP_DECL_CONSGETVARS(), SCIPcreateConsBasicAnd(), SCIPcreateConsPseudobooleanWithConss(), SCIPwriteMps(), SCIPwritePip(), transformToOrig(), and writeOpbConstraints().
◆ SCIPgetVarsAnd()
gets array of variables in and constraint
gets array of variables in AND-constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5156 of file cons_and.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetResultantAnd().
Referenced by checkAndConss(), checkOrigPbCons(), chgLhs(), chgRhs(), computeAndConstraintInfos(), computeConsAndDataChanges(), computeSymmetryGroup(), consdataFree(), consdataPrint(), countNonlinearities(), createCoveringProblem(), printAndCons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSGETVARS(), SCIPcreateConsPseudobooleanWithConss(), SCIPgetNVarsAnd(), SCIPwriteMps(), SCIPwritePip(), transformToOrig(), and writeOpbConstraints().
◆ SCIPgetResultantAnd()
gets the resultant variable in and constraint
gets the resultant variable in AND-constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5181 of file cons_and.c.
References CONSHDLR_NAME, NULL, SCIP_Bool, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPisAndConsSorted().
Referenced by addCliques(), addCoefTerm(), checkAndConss(), checkOrigPbCons(), computeAndConstraintInfos(), computeSymmetryGroup(), consdataCreate(), consdataFree(), copyConsPseudoboolean(), correctConshdlrdata(), correctLocksAndCaptures(), countNonlinearities(), createAndAddAndCons(), createCoveringProblem(), getLinVarsAndAndRess(), lockRoundingAndCons(), printAndCons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSINIT(), SCIP_DECL_CONSLOCK(), SCIP_DECL_SORTPTRCOMP(), SCIPcreateConsPseudoboolean(), SCIPcreateConsPseudobooleanWithConss(), SCIPgetVarsAnd(), SCIPwriteMps(), SCIPwritePip(), transformToOrig(), tryUpgradingSetppc(), unlockRoundingAndCons(), and updateConsanddataUses().
◆ SCIPisAndConsSorted()
return if the variables of the AND-constraint are sorted with respect to their indices
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5204 of file cons_and.c.
References CONSHDLR_NAME, FALSE, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPsortAndCons().
Referenced by computeConsAndDataChanges(), and SCIPgetResultantAnd().
◆ SCIPsortAndCons()
SCIP_RETCODE SCIPsortAndCons | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
sort the variables of the AND-constraint with respect to their indices
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5228 of file cons_and.c.
References consdataSort(), CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPchgAndConsCheckFlagWhenUpgr(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by computeConsAndDataChanges(), and SCIPisAndConsSorted().
◆ SCIPchgAndConsCheckFlagWhenUpgr()
SCIP_RETCODE SCIPchgAndConsCheckFlagWhenUpgr | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Bool | flag | ||
) |
when 'upgrading' the given AND-constraint, should the check flag for the upgraded constraint be set to TRUE, even if the check flag of this AND-constraint is set to FALSE?
- Parameters
-
scip SCIP data structure cons constraint data flag should an arising constraint from the given AND-constraint be checked, even if the check flag of the AND-constraint is set to FALSE
Definition at line 5257 of file cons_and.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPchgAndConsRemovableFlagWhenUpgr(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by createAndAddAndCons(), and SCIPsortAndCons().
◆ SCIPchgAndConsRemovableFlagWhenUpgr()
SCIP_RETCODE SCIPchgAndConsRemovableFlagWhenUpgr | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Bool | flag | ||
) |
when 'upgrading' the given AND-constraint, should the removable flag for the upgraded constraint be set to FALSE, even if the removable flag of this AND-constraint is set to TRUE?
- Parameters
-
scip SCIP data structure cons constraint data flag should an arising constraint from the given AND-constraint be not removable, even if the removable flag of the AND-constraint is set to TRUE
Definition at line 5288 of file cons_and.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by createAndAddAndCons(), and SCIPchgAndConsCheckFlagWhenUpgr().
◆ SCIPconsBendersEnforceSolution()
SCIP_RETCODE SCIPconsBendersEnforceSolution | ( | SCIP * | scip, |
SCIP_SOL * | sol, | ||
SCIP_CONSHDLR * | conshdlr, | ||
SCIP_RESULT * | result, | ||
SCIP_BENDERSENFOTYPE | type, | ||
SCIP_Bool | checkint | ||
) |
enforces Benders' constraints for given solution
This method is called from cons_benderslp and cons_benders. If the method is called from cons_benderslp, then the solutions are not guaranteed to be integer feasible. This is because the default priority is set greater than the integer constraint handler. If this method is called from cons_benders, then, because the default enforcement priority is set less than that of the integer constraint handler, then it can be assumed that the solutions are integer feasible.
The checkint flag indicates whether integer feasibility can be assumed. If it is not assumed, i.e. checkint == FALSE, then only the convex relaxations of the subproblems are solved. If integer feasibility is assumed, i.e. checkint == TRUE, then the convex relaxations and the full CIP are solved to generate Benders' cuts and check solution feasibility.
- Parameters
-
scip the SCIP instance sol the primal solution to enforce, or NULL for the current LP/pseudo sol conshdlr the constraint handler result the result of the enforcement type the type of solution being enforced checkint should integrality be considered when checking the subproblems
Definition at line 222 of file cons_benders.c.
References constructValidSolution(), FALSE, NULL, SCIP_BENDERSENFOTYPE_CHECK, SCIP_BENDERSENFOTYPE_LP, SCIP_BENDERSENFOTYPE_PSEUDO, SCIP_BENDERSENFOTYPE_RELAX, SCIP_Bool, SCIP_CALL, SCIP_DECL_CONSHDLRCOPY(), SCIP_DIDNOTRUN, SCIP_FEASIBLE, SCIP_INFEASIBLE, SCIP_OKAY, SCIPbendersCutLP(), SCIPbendersCutPseudo(), SCIPbendersCutRelaxation(), SCIPgetBenders(), SCIPgetNActiveBenders(), SCIPsolveBendersSubproblems(), and SCIPwarningMessage().
Referenced by constructValidSolution(), SCIP_DECL_CONSENFOLP(), SCIP_DECL_CONSENFOPS(), and SCIP_DECL_CONSENFORELAX().
◆ SCIPcreateConsBivariate()
SCIP_RETCODE SCIPcreateConsBivariate | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_EXPRTREE * | f, | ||
SCIP_BIVAR_CONVEXITY | convextype, | ||
SCIP_VAR * | z, | ||
SCIP_Real | zcoef, | ||
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 | ||
) |
creates and captures a bivariate constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint f expression tree specifying bivariate function f(x,y) convextype kind of convexity of f(x,y) z linear variable in constraint zcoef coefficient of linear variable lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 7944 of file cons_bivariate.c.
References BMSclearMemory, CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPallocBlockMemory, SCIPblkmem(), SCIPcreateCons(), SCIPcreateConsBasicBivariate(), SCIPerrorMessage, SCIPexprtreeCopy(), SCIPexprtreeGetNVars(), SCIPexprtreeGetVars(), SCIPfindConshdlr(), and SCIPisInfinity().
Referenced by createConsFromMonomial(), createConsFromQuadTerm(), SCIP_DECL_CONSCOPY(), SCIPcreateConsBasicBivariate(), and SCIPincludeConshdlrBivariate().
◆ SCIPcreateConsBasicBivariate()
SCIP_RETCODE SCIPcreateConsBasicBivariate | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_EXPRTREE * | f, | ||
SCIP_BIVAR_CONVEXITY | convextype, | ||
SCIP_VAR * | z, | ||
SCIP_Real | zcoef, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures an absolute power constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsBivariate(); all flags can be set via SCIPconsSetFLAGNAME-methods in cons.h
- See also
- SCIPcreateConsBivariate() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an absolute power constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsBivariate(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsBivariate() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint f expression tree specifying bivariate function f(x,y) convextype kind of convexity of f(x,y) z linear variable in constraint zcoef coefficient of linear variable lhs left hand side of constraint rhs right hand side of constraint
Definition at line 8028 of file cons_bivariate.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsBivariate(), SCIPgetLinearVarBivariate(), and TRUE.
Referenced by SCIPcreateConsBivariate().
◆ SCIPgetLinearVarBivariate()
gets the linear variable of a bivariate constraint, or NULL if no such variable
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 8049 of file cons_bivariate.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLinearCoefBivariate().
Referenced by SCIPcreateConsBasicBivariate(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLinearCoefBivariate()
gets the coefficients of the linear variable of a bivariate constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 8061 of file cons_bivariate.c.
References NULL, SCIPconsGetData(), and SCIPgetExprtreeBivariate().
Referenced by SCIPgetLinearVarBivariate(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetExprtreeBivariate()
SCIP_EXPRTREE* SCIPgetExprtreeBivariate | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets the expression tree of a bivariate constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 8073 of file cons_bivariate.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsBivariate().
Referenced by SCIPgetLinearCoefBivariate(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLhsBivariate()
gets the left hand side of a bivariate constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 8085 of file cons_bivariate.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetRhsBivariate().
Referenced by SCIPgetExprtreeBivariate(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetRhsBivariate()
gets the right hand side of a bivariate constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 8097 of file cons_bivariate.c.
References NULL, and SCIPconsGetData().
Referenced by SCIPgetLhsBivariate(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPcreateConsBounddisjunction()
SCIP_RETCODE SCIPcreateConsBounddisjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_BOUNDTYPE * | boundtypes, | ||
SCIP_Real * | bounds, | ||
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 | ||
) |
creates and captures a bound disjunction constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars variables of the literals in the constraint boundtypes types of bounds of the literals (lower or upper bounds) bounds bounds of the literals initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 3339 of file cons_bounddisjunction.c.
References consdataCreate(), CONSHDLR_NAME, isOverlapping(), NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPboundtypeOpposite(), SCIPcreateCons(), SCIPcreateConsBasicBounddisjunction(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by addLocalConss(), addLowerboundCons(), addSplitcons(), adjustOversizedJobBounds(), createConflict(), CUTOFF_CONSTRAINT(), forbidFixation(), readBounds(), readSemicontinuous(), readVariables(), SCIP_DECL_CONFLICTEXEC(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_QUADCONSUPGD(), SCIPcreateConsBasicBounddisjunction(), and SCIPincludeConshdlrBounddisjunction().
◆ SCIPcreateConsBasicBounddisjunction()
SCIP_RETCODE SCIPcreateConsBasicBounddisjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_BOUNDTYPE * | boundtypes, | ||
SCIP_Real * | bounds | ||
) |
creates and captures an and constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsBounddisjunction(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsBounddisjunction() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a bound disjunction constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsBounddisjunction(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsBounddisjunction() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars variables of the literals in the constraint boundtypes types of bounds of the literals (lower or upper bounds) bounds bounds of the literals
Definition at line 3419 of file cons_bounddisjunction.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsBounddisjunction(), SCIPgetNVarsBounddisjunction(), and TRUE.
Referenced by createBounddisjunctionCons(), SCIPcreateConsBounddisjunction(), and SCIPreoptApplyGlbConss().
◆ SCIPgetNVarsBounddisjunction()
gets number of variables in bound disjunction constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3438 of file cons_bounddisjunction.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsBounddisjunction().
Referenced by checkBounddisjunction(), createCoveringProblem(), SCIP_DECL_CONSCOPY(), and SCIPcreateConsBasicBounddisjunction().
◆ SCIPgetVarsBounddisjunction()
gets array of variables in bound disjunction constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3459 of file cons_bounddisjunction.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetBoundtypesBounddisjunction().
Referenced by checkBounddisjunction(), createCoveringProblem(), saveConsBounddisjuction(), SCIP_DECL_CONSCOPY(), and SCIPgetNVarsBounddisjunction().
◆ SCIPgetBoundtypesBounddisjunction()
SCIP_BOUNDTYPE* SCIPgetBoundtypesBounddisjunction | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets array of bound types in bound disjunction constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3480 of file cons_bounddisjunction.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetBoundsBounddisjunction().
Referenced by checkBounddisjunction(), saveConsBounddisjuction(), SCIP_DECL_CONSCOPY(), and SCIPgetVarsBounddisjunction().
◆ SCIPgetBoundsBounddisjunction()
gets array of bounds in bound disjunction constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3501 of file cons_bounddisjunction.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by checkBounddisjunction(), saveConsBounddisjuction(), SCIP_DECL_CONSCOPY(), and SCIPgetBoundtypesBounddisjunction().
◆ SCIPcreateConsCardinality()
SCIP_RETCODE SCIPcreateConsCardinality | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int | cardval, | ||
SCIP_VAR ** | indvars, | ||
SCIP_Real * | weights, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures an cardinality constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a cardinality constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries cardval number of variables allowed to be nonzero indvars indicator variables indicating which variables may be treated as nonzero in cardinality constraint, or NULL if new indicator variables should be introduced automatically weights weights determining the variable order, or NULL if variables should be ordered in the same way they were added to the constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 3294 of file cons_cardinality.c.
References CONSHDLR_NAME, FALSE, handleNewVariableCardinality(), NULL, SCIP_Bool, SCIP_CALL, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_STAGE_TRANSFORMED, SCIP_VARTYPE_BINARY, SCIPaddVar(), SCIPallocBlockMemory, SCIPallocBlockMemoryArray, SCIPallocBufferArray, SCIPblkmem(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicCardinality(), SCIPcreateVar(), SCIPduplicateBlockMemoryArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, SCIPgetNTotalVars(), SCIPgetStage(), SCIPgetTransformedVar(), SCIPhashmapCreate(), SCIPhashmapExists(), SCIPhashmapGetImage(), SCIPhashmapInsert(), SCIPreleaseVar(), SCIPsnprintf(), SCIPsortRealPtrPtrInt(), SCIPvarGetName(), SCIPvarIsBinary(), and SCIPvarIsTransformed().
Referenced by branchBalancedCardinality(), SCIPcreateConsBasicCardinality(), and SCIPincludeConshdlrCardinality().
◆ SCIPcreateConsBasicCardinality()
SCIP_RETCODE SCIPcreateConsBasicCardinality | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int | cardval, | ||
SCIP_VAR ** | indvars, | ||
SCIP_Real * | weights | ||
) |
creates and captures an cardinality constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsCardinality() for the default constraint flag configuration
- Warning
- Do NOT set the constraint to be modifiable manually, because this might lead to wrong results as the variable array will not be resorted
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a cardinality constraint with all constraint flags set to their default values.
- Warning
- Do NOT set the constraint to be modifiable manually, because this might lead to wrong results as the variable array will not be resorted
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries cardval number of variables allowed to be nonzero indvars indicator variables indicating which variables may be treated as nonzero in cardinality constraint, or NULL if new indicator variables should be introduced automatically weights weights determining the variable order, or NULL if variables should be ordered in the same way they were added to the constraint
Definition at line 3494 of file cons_cardinality.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPchgCardvalCardinality(), SCIPcreateConsCardinality(), and TRUE.
Referenced by SCIPcreateConsCardinality().
◆ SCIPchgCardvalCardinality()
SCIP_RETCODE SCIPchgCardvalCardinality | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
int | cardval | ||
) |
changes cardinality value of cardinality constraint (i.e., right hand side of cardinality constraint)
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint cardval number of variables allowed to be nonzero
Definition at line 3515 of file cons_cardinality.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPaddVarCardinality(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPdebugMsg, and SCIPerrorMessage.
Referenced by SCIPcreateConsBasicCardinality().
◆ SCIPaddVarCardinality()
SCIP_RETCODE SCIPaddVarCardinality | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_VAR * | indvar, | ||
SCIP_Real | weight | ||
) |
adds variable to cardinality constraint, the position is determined by the given weight
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint indvar indicator variable indicating whether variable may be treated as nonzero in cardinality constraint (or NULL if this variable should be created automatically) weight weight determining position of variable
Definition at line 3544 of file cons_cardinality.c.
References addVarCardinality(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPappendVarCardinality(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPerrorMessage, and SCIPvarGetName().
Referenced by SCIPchgCardvalCardinality().
◆ SCIPappendVarCardinality()
SCIP_RETCODE SCIPappendVarCardinality | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_VAR * | indvar | ||
) |
appends variable to cardinality constraint
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint indvar indicator variable indicating whether variable may be treated as nonzero in cardinality constraint (or NULL if this variable should be created automatically)
Definition at line 3581 of file cons_cardinality.c.
References appendVarCardinality(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPerrorMessage, SCIPgetNVarsCardinality(), and SCIPvarGetName().
Referenced by SCIPaddVarCardinality().
◆ SCIPgetNVarsCardinality()
gets number of variables in cardinality constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 3616 of file cons_cardinality.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsCardinality().
Referenced by SCIPappendVarCardinality().
◆ SCIPgetVarsCardinality()
gets array of variables in cardinality constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3640 of file cons_cardinality.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetCardvalCardinality().
Referenced by SCIPgetNVarsCardinality().
◆ SCIPgetCardvalCardinality()
gets cardinality value of cardinality constraint (i.e., right hand side of cardinality constraint)
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3664 of file cons_cardinality.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetWeightsCardinality().
Referenced by SCIPgetVarsCardinality().
◆ SCIPgetWeightsCardinality()
gets array of weights in cardinality constraint (or NULL if not existent)
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 3687 of file cons_cardinality.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetCardvalCardinality().
◆ SCIPcreateConsConjunction()
SCIP_RETCODE SCIPcreateConsConjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nconss, | ||
SCIP_CONS ** | conss, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | local, | ||
SCIP_Bool | modifiable, | ||
SCIP_Bool | dynamic | ||
) |
creates and captures a conjunction constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nconss number of initial constraints in conjunction conss initial constraint in conjunction enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints.
Definition at line 798 of file cons_conjunction.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicConjunction(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicConjunction(), and SCIPincludeConshdlrConjunction().
◆ SCIPcreateConsBasicConjunction()
SCIP_RETCODE SCIPcreateConsBasicConjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nconss, | ||
SCIP_CONS ** | conss | ||
) |
creates and captures an and constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsConjunction(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsConjunction() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nconss number of initial constraints in conjunction conss initial constraint in conjunction
Definition at line 847 of file cons_conjunction.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddConsElemConjunction(), SCIPcreateConsConjunction(), and TRUE.
Referenced by SCIPcreateConsConjunction().
◆ SCIPaddConsElemConjunction()
SCIP_RETCODE SCIPaddConsElemConjunction | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_CONS * | addcons | ||
) |
adds constraint to the conjunction of constraints
- Parameters
-
scip SCIP data structure cons conjunction constraint addcons additional constraint in conjunction
Definition at line 864 of file cons_conjunction.c.
References consdataAddCons(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPcreateConsBasicConjunction().
◆ SCIP_DECL_DIALOGEXEC() [1/4]
SCIP_DECL_DIALOGEXEC | ( | SCIPdialogExecCountPresolve | ) |
dialog execution method for the count command
Definition at line 1840 of file cons_countsols.c.
References active, CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_DECL_DIALOGEXEC(), SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_EXITSOLVE, SCIP_STAGE_FREE, SCIP_STAGE_FREETRANS, SCIP_STAGE_INIT, SCIP_STAGE_INITPRESOLVE, SCIP_STAGE_INITSOLVE, SCIP_STAGE_PRESOLVED, SCIP_STAGE_PRESOLVING, SCIP_STAGE_PROBLEM, SCIP_STAGE_SOLVED, SCIP_STAGE_SOLVING, SCIP_STAGE_TRANSFORMED, SCIP_STAGE_TRANSFORMING, SCIPdialoghdlrAddHistory(), SCIPdialoghdlrGetRoot(), SCIPdialogMessage(), SCIPerrorMessage, SCIPgetBoolParam(), SCIPgetIntParam(), SCIPgetStage(), SCIPpresolve(), SCIPsetBoolParam(), SCIPsetIntParam(), SCIPwarningMessage(), and TRUE.
Referenced by SCIP_DECL_CONSLOCK(), SCIP_DECL_DIALOGEXEC(), and writeExpandedSolutions().
◆ SCIP_DECL_DIALOGEXEC() [2/4]
SCIP_DECL_DIALOGEXEC | ( | SCIPdialogExecCount | ) |
dialog execution method for the count command
Definition at line 1930 of file cons_countsols.c.
References active, CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_DECL_SORTPTRCOMP(), SCIP_INVALIDCALL, SCIP_Longint, SCIP_LONGINT_FORMAT, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_EXITSOLVE, SCIP_STAGE_FREE, SCIP_STAGE_FREETRANS, SCIP_STAGE_INIT, SCIP_STAGE_INITPRESOLVE, SCIP_STAGE_INITSOLVE, SCIP_STAGE_PRESOLVED, SCIP_STAGE_PRESOLVING, SCIP_STAGE_PROBLEM, SCIP_STAGE_SOLVED, SCIP_STAGE_SOLVING, SCIP_STAGE_TRANSFORMED, SCIP_STAGE_TRANSFORMING, SCIP_VERBLEVEL_FULL, SCIPallocBufferArray, SCIPcount(), SCIPdialoghdlrAddHistory(), SCIPdialoghdlrGetRoot(), SCIPdialogMessage(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, SCIPgetBoolParam(), SCIPgetIntParam(), SCIPgetNContVars(), SCIPgetNCountedFeasSubtrees(), SCIPgetNCountedSols(), SCIPgetNCountedSolsstr(), SCIPgetStage(), SCIPisParamFixed(), SCIPpresolve(), SCIPreallocBufferArray, SCIPsetBoolParam(), SCIPsetIntParam(), SCIPunfixParam(), SCIPverbMessage(), SCIPwarningMessage(), and TRUE.
◆ SCIP_DECL_DIALOGEXEC() [3/4]
SCIP_DECL_DIALOGEXEC | ( | SCIPdialogExecWriteAllsolutions | ) |
execution method of dialog for writing all solutions
Definition at line 2271 of file cons_countsols.c.
References CONSHDLR_NAME, createCountDialog(), FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_ERROR, SCIP_Longint, SCIP_LONGINT_FORMAT, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_EXITSOLVE, SCIP_STAGE_FREE, SCIP_STAGE_FREETRANS, SCIP_STAGE_INIT, SCIP_STAGE_INITPRESOLVE, SCIP_STAGE_INITSOLVE, SCIP_STAGE_PRESOLVED, SCIP_STAGE_PRESOLVING, SCIP_STAGE_PROBLEM, SCIP_STAGE_SOLVED, SCIP_STAGE_SOLVING, SCIP_STAGE_TRANSFORMED, SCIP_STAGE_TRANSFORMING, SCIP_VARTYPE_CONTINUOUS, SCIPallocBufferArray, SCIPconshdlrGetData(), SCIPdialoghdlrAddHistory(), SCIPdialoghdlrClearBuffer(), SCIPdialoghdlrGetRoot(), SCIPdialoghdlrGetWord(), SCIPdialogMessage(), SCIPduplicateBufferArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, SCIPgetNCountedSols(), SCIPgetNCountedSolsstr(), SCIPgetNOrigVars(), SCIPgetOrigVars(), SCIPgetStage(), SCIPgetTransformedVar(), SCIPinfoMessage(), SCIPreallocBufferArray, SCIPsortDownPtrPtr(), SCIPvarGetName(), SCIPvarGetType(), TRUE, and writeExpandedSolutions().
◆ SCIPcount()
SCIP_RETCODE SCIPcount | ( | SCIP * | scip | ) |
execute counting
- Parameters
-
scip SCIP data structure
Definition at line 2702 of file cons_countsols.c.
References active, checkParameters(), CONSHDLR_NAME, FALSE, SCIP_Bool, SCIP_CALL, SCIP_Longint, SCIP_OKAY, SCIPgetBoolParam(), SCIPgetNCountedSols(), SCIPsetBoolParam(), SCIPsolve(), and TRUE.
Referenced by SCIP_DECL_DIALOGEXEC(), and SCIPincludeConshdlrCountsols().
◆ SCIPgetNCountedSols()
SCIP_Longint SCIPgetNCountedSols | ( | SCIP * | scip, |
SCIP_Bool * | valid | ||
) |
returns number of feasible solutions found as SCIP_Longint; if the number does not fit into a SCIP_Longint the valid flag is set to FALSE
- Parameters
-
scip SCIP data structure valid pointer to store if the return value is valid
Definition at line 2734 of file cons_countsols.c.
References CONSHDLR_NAME, getNCountedSols(), NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPgetNCountedSolsstr().
Referenced by SCIP_DECL_DIALOGEXEC(), SCIP_DECL_DISPOUTPUT(), and SCIPcount().
◆ SCIPgetNCountedSolsstr()
void SCIPgetNCountedSolsstr | ( | SCIP * | scip, |
char ** | buffer, | ||
int | buffersize, | ||
int * | requiredsize | ||
) |
returns number of counted solutions as string
puts the number of counted solutions in the given char* buffer
- Parameters
-
scip SCIP data structure buffer buffer to store the number for counted solutions buffersize buffer size requiredsize pointer to store the required size
Definition at line 2754 of file cons_countsols.c.
References CONSHDLR_NAME, NULL, pow(), SCIP_Longint, SCIPconshdlrGetData(), SCIPfindConshdlr(), SCIPgetNCountedFeasSubtrees(), and toString().
Referenced by SCIP_DECL_DIALOGEXEC(), and SCIPgetNCountedSols().
◆ SCIPgetNCountedFeasSubtrees()
SCIP_Longint SCIPgetNCountedFeasSubtrees | ( | SCIP * | scip | ) |
returns number of counted feasible subtrees
returns number of counted non trivial feasible subtrees
- Parameters
-
scip SCIP data structure
Definition at line 2792 of file cons_countsols.c.
References CONSHDLR_NAME, NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPgetCountedSparseSols().
Referenced by SCIP_DECL_DIALOGEXEC(), SCIP_DECL_DISPOUTPUT(), and SCIPgetNCountedSolsstr().
◆ SCIPgetCountedSparseSols()
void SCIPgetCountedSparseSols | ( | SCIP * | scip, |
SCIP_VAR *** | vars, | ||
int * | nvars, | ||
SCIP_SPARSESOL *** | sols, | ||
int * | nsols | ||
) |
Method to get the sparse solution.
- Note
- You get the pointer to the sparse solutions stored in the constraint handler (not a copy).
- The sparse solutions are stored w.r.t. the active variables. This are the variables which got not removed during presolving. For none active variables the value has to be computed depending on their aggregation type. See for more details about that Collect all feasible solution.
- Parameters
-
scip SCIP data structure vars pointer to active variable array defining to variable order nvars number of active variables sols pointer to the solutions nsols pointer to number of solutions
Definition at line 2820 of file cons_countsols.c.
References CONSHDLR_NAME, NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPsetParamsCountsols().
Referenced by SCIPgetNCountedFeasSubtrees().
◆ SCIPsetParamsCountsols()
SCIP_RETCODE SCIPsetParamsCountsols | ( | SCIP * | scip | ) |
setting SCIP parameters for such that a valid counting process is possible
- Parameters
-
scip SCIP data structure
Definition at line 2847 of file cons_countsols.c.
References SCIP_CALL, SCIP_OKAY, SCIP_PARAMEMPHASIS_COUNTER, SCIPsetEmphasis(), and TRUE.
Referenced by SCIPgetCountedSparseSols().
◆ SCIPcreateConsCumulative()
SCIP_RETCODE SCIPcreateConsCumulative | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
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 | ||
) |
creates and captures a cumulative constraint
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands capacity available cumulative capacity initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 13706 of file cons_cumulative.c.
References consdataCatchEvents(), consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_STAGE_PROBLEM, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicCumulative(), SCIPdebugMsg, SCIPerrorMessage, SCIPfindConshdlr(), and SCIPgetStage().
Referenced by CREATE_CONSTRAINT(), createConsCumulative(), createCumulativeCons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicCumulative(), SCIPcreateSchedulingProblem(), SCIPincludeConshdlrCumulative(), and upgradeCons().
◆ SCIPcreateConsBasicCumulative()
SCIP_RETCODE SCIPcreateConsBasicCumulative | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity | ||
) |
creates and captures an absolute power constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsCumulative(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsCumulative() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a cumulative constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsCumulative(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsCumulative() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands capacity available cumulative capacity
Definition at line 13787 of file cons_cumulative.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsCumulative(), SCIPsetHminCumulative(), and TRUE.
Referenced by SCIPcreateConsCumulative(), and setupAndSolveCumulativeSubscip().
◆ SCIPsetHminCumulative()
SCIP_RETCODE SCIPsetHminCumulative | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
int | hmin | ||
) |
set the left bound of effective horizon
set the left bound of the time axis to be considered (including hmin)
- Parameters
-
scip SCIP data structure cons constraint data hmin left bound of time axis to be considered
Definition at line 13807 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDCALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetHminCumulative().
Referenced by createConsCumulative(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicCumulative(), setupAndSolveCumulativeSubscip(), and upgradeCons().
◆ SCIPgetHminCumulative()
returns the left bound of the effective horizon
returns the left bound of the time axis to be considered
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 13831 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPsetHmaxCumulative().
Referenced by SCIP_DECL_CONSRESPROP(), and SCIPsetHminCumulative().
◆ SCIPsetHmaxCumulative()
SCIP_RETCODE SCIPsetHmaxCumulative | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
int | hmax | ||
) |
set the right bound of the effective horizon
set the right bound of the time axis to be considered (not including hmax)
- Parameters
-
scip SCIP data structure cons constraint data hmax right bound of time axis to be considered
Definition at line 13851 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDCALL, SCIP_OKAY, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetHmaxCumulative().
Referenced by createConsCumulative(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPgetHminCumulative(), setupAndSolveCumulativeSubscip(), and upgradeCons().
◆ SCIPgetHmaxCumulative()
returns the right bound of effective horizon
returns the right bound of the time axis to be considered
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 13875 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsCumulative().
Referenced by SCIP_DECL_CONSRESPROP(), and SCIPsetHmaxCumulative().
◆ SCIPgetVarsCumulative()
returns the start time variables of the cumulative constraint
returns the activities of the cumulative constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13895 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNVarsCumulative().
Referenced by SCIPgetHmaxCumulative(), and writeFzn().
◆ SCIPgetNVarsCumulative()
returns the number of start time variables of the cumulative constraint
returns the activities of the cumulative constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13916 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetCapacityCumulative().
Referenced by SCIPgetVarsCumulative(), and writeFzn().
◆ SCIPgetCapacityCumulative()
returns the capacity of the cumulative constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13937 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDurationsCumulative().
Referenced by SCIPgetNVarsCumulative(), and writeFzn().
◆ SCIPgetDurationsCumulative()
returns the durations of the cumulative constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13958 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDemandsCumulative().
Referenced by SCIPgetCapacityCumulative(), and writeFzn().
◆ SCIPgetDemandsCumulative()
returns the demands of the cumulative constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13979 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPcheckCumulativeCondition(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetDurationsCumulative(), and writeFzn().
◆ SCIPcheckCumulativeCondition()
SCIP_RETCODE SCIPcheckCumulativeCondition | ( | SCIP * | scip, |
SCIP_SOL * | sol, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
int | hmin, | ||
int | hmax, | ||
SCIP_Bool * | violated, | ||
SCIP_CONS * | cons, | ||
SCIP_Bool | printreason | ||
) |
check for the given starting time variables with their demands and durations if the cumulative conditions for the given solution is satisfied
- Parameters
-
scip SCIP data structure sol primal solution, or NULL for current LP/pseudo solution nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands capacity available cumulative capacity hmin left bound of time axis to be considered (including hmin) hmax right bound of time axis to be considered (not including hmax) violated pointer to store if the cumulative condition is violated cons constraint which is checked printreason should the reason for the violation be printed?
Definition at line 14002 of file cons_cumulative.c.
References checkCumulativeCondition(), NULL, SCIP_CALL, SCIP_OKAY, and SCIPnormalizeCumulativeCondition().
Referenced by checkCons(), enfopsCons(), and SCIPgetDemandsCumulative().
◆ SCIPnormalizeCumulativeCondition()
SCIP_RETCODE SCIPnormalizeCumulativeCondition | ( | SCIP * | scip, |
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int * | capacity, | ||
int * | nchgcoefs, | ||
int * | nchgsides | ||
) |
normalize cumulative condition
- Parameters
-
scip SCIP data structure nvars number of start time variables (activities) vars array of start time variables durations array of durations demands array of demands capacity pointer to store the changed cumulative capacity nchgcoefs pointer to count total number of changed coefficients nchgsides pointer to count number of side changes
Definition at line 14027 of file cons_cumulative.c.
References normalizeCumulativeCondition(), SCIP_CALL, SCIP_OKAY, and SCIPsplitCumulativeCondition().
Referenced by SCIP_DECL_CONSPRESOL(), and SCIPcheckCumulativeCondition().
◆ SCIPsplitCumulativeCondition()
SCIP_RETCODE SCIPsplitCumulativeCondition | ( | SCIP * | scip, |
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
int * | hmin, | ||
int * | hmax, | ||
int * | split | ||
) |
searches for a time point within the cumulative condition were the cumulative condition can be split
- Parameters
-
scip SCIP data structure nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands capacity available cumulative capacity hmin pointer to store the left bound of the effective horizon hmax pointer to store the right bound of the effective horizon split point were the cumulative condition can be split
Definition at line 14045 of file cons_cumulative.c.
References computeEffectiveHorizonCumulativeCondition(), SCIP_CALL, SCIP_OKAY, and SCIPpresolveCumulativeCondition().
Referenced by SCIP_DECL_CONSPRESOL(), and SCIPnormalizeCumulativeCondition().
◆ SCIPpresolveCumulativeCondition()
SCIP_RETCODE SCIPpresolveCumulativeCondition | ( | SCIP * | scip, |
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int | hmin, | ||
int | hmax, | ||
SCIP_Bool * | downlocks, | ||
SCIP_Bool * | uplocks, | ||
SCIP_CONS * | cons, | ||
SCIP_Bool * | irrelevants, | ||
int * | nfixedvars, | ||
int * | nchgsides, | ||
SCIP_Bool * | cutoff | ||
) |
presolve cumulative condition w.r.t. effective horizon by detecting irrelevant variables
- Parameters
-
scip SCIP data structure nvars number of start time variables (activities) vars array of start time variables durations array of durations hmin left bound of time axis to be considered hmax right bound of time axis to be considered (not including hmax) downlocks array storing if the variable has a down lock, or NULL uplocks array storing if the variable has an up lock, or NULL cons constraint which gets propagated, or NULL irrelevants array mark those variables which are irrelevant for the cumulative condition nfixedvars pointer to store the number of fixed variables nchgsides pointer to store the number of changed sides cutoff buffer to store whether a cutoff is detected
Definition at line 14064 of file cons_cumulative.c.
References presolveConsEst(), presolveConsLct(), SCIP_CALL, SCIP_OKAY, and SCIPpropCumulativeCondition().
Referenced by presolveCumulativeCondition(), and SCIPsplitCumulativeCondition().
◆ SCIPpropCumulativeCondition()
SCIP_RETCODE SCIPpropCumulativeCondition | ( | SCIP * | scip, |
SCIP_PRESOLTIMING | presoltiming, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
int | hmin, | ||
int | hmax, | ||
SCIP_CONS * | cons, | ||
int * | nchgbds, | ||
SCIP_Bool * | initialized, | ||
SCIP_Bool * | explanation, | ||
SCIP_Bool * | cutoff | ||
) |
propagate the given cumulative condition
- Parameters
-
scip SCIP data structure presoltiming current presolving timing nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands capacity available cumulative capacity hmin left bound of time axis to be considered (including hmin) hmax right bound of time axis to be considered (not including hmax) cons constraint which gets propagated nchgbds pointer to store the number of variable bound changes initialized was conflict analysis initialized explanation bool array which marks the variable which are part of the explanation if a cutoff was detected, or NULL cutoff pointer to store if the cumulative condition is violated
Definition at line 14095 of file cons_cumulative.c.
References CONSHDLR_NAME, FALSE, NULL, propagateCumulativeCondition(), SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPerrorMessage, SCIPfindConshdlr(), and SCIPrespropCumulativeCondition().
Referenced by propagateCons(), and SCIPpresolveCumulativeCondition().
◆ SCIPrespropCumulativeCondition()
SCIP_RETCODE SCIPrespropCumulativeCondition | ( | SCIP * | scip, |
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
int | hmin, | ||
int | hmax, | ||
SCIP_VAR * | infervar, | ||
int | inferinfo, | ||
SCIP_BOUNDTYPE | boundtype, | ||
SCIP_BDCHGIDX * | bdchgidx, | ||
SCIP_Real | relaxedbd, | ||
SCIP_Bool * | explanation, | ||
SCIP_RESULT * | result | ||
) |
resolve propagation w.r.t. the cumulative condition
- Parameters
-
scip SCIP data structure nvars number of start time variables (activities) vars array of start time variables durations array of durations demands array of demands capacity cumulative capacity hmin left bound of time axis to be considered (including hmin) hmax right bound of time axis to be considered (not including hmax) infervar the conflict variable whose bound change has to be resolved inferinfo the user information boundtype the type of the changed bound (lower or upper bound) bdchgidx the index of the bound change, representing the point of time where the change took place relaxedbd the relaxed bound which is sufficient to be explained explanation bool array which marks the variable which are part of the explanation if a cutoff was detected, or NULL result pointer to store the result of the propagation conflict resolving call
Definition at line 14144 of file cons_cumulative.c.
References intToInferInfo(), respropCumulativeCondition(), SCIP_CALL, SCIP_OKAY, SCIPvisualizeConsCumulative(), and TRUE.
Referenced by SCIP_DECL_CONSRESPROP(), and SCIPpropCumulativeCondition().
◆ SCIPvisualizeConsCumulative()
SCIP_RETCODE SCIPvisualizeConsCumulative | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
this method visualizes the cumulative structure in GML format
- Parameters
-
scip SCIP data structure cons cumulative constraint
Definition at line 14169 of file cons_cumulative.c.
References b, NULL, SCIP_CALL_TERMINATE, SCIP_FILECREATEERROR, SCIP_MAXSTRLEN, SCIP_OKAY, SCIPblkmem(), SCIPconsGetData(), SCIPconsGetName(), SCIPerrorMessage, SCIPgmlWriteArc(), SCIPgmlWriteClosing(), SCIPgmlWriteNode(), SCIPgmlWriteOpening(), SCIPhashtableCreate(), SCIPhashtableExists(), SCIPhashtableFree(), SCIPhashtableInsert(), SCIPprintSysError(), SCIPsetSolveCumulative(), SCIPsnprintf(), SCIPvarGetLbGlobal(), SCIPvarGetName(), SCIPvarGetNVlbs(), SCIPvarGetNVubs(), SCIPvarGetUbGlobal(), SCIPvarGetVlbVars(), SCIPvarGetVubVars(), and TRUE.
Referenced by SCIP_DECL_CONSINITPRE(), and SCIPrespropCumulativeCondition().
◆ SCIPsetSolveCumulative()
SCIP_RETCODE SCIPsetSolveCumulative | ( | SCIP * | scip, |
SCIP_DECL_SOLVECUMULATIVE((*solveCumulative)) | |||
) |
sets method to solve an individual cumulative condition
- Parameters
-
scip SCIP data structure
Definition at line 14272 of file cons_cumulative.c.
References CONSHDLR_NAME, NULL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPsolveCumulative(), and solveCumulative().
Referenced by runShell(), and SCIPvisualizeConsCumulative().
◆ SCIPsolveCumulative()
SCIP_RETCODE SCIPsolveCumulative | ( | SCIP * | scip, |
int | njobs, | ||
SCIP_Real * | ests, | ||
SCIP_Real * | lsts, | ||
SCIP_Real * | objvals, | ||
int * | durations, | ||
int * | demands, | ||
int | capacity, | ||
int | hmin, | ||
int | hmax, | ||
SCIP_Real | timelimit, | ||
SCIP_Real | memorylimit, | ||
SCIP_Longint | maxnodes, | ||
SCIP_Bool * | solved, | ||
SCIP_Bool * | infeasible, | ||
SCIP_Bool * | unbounded, | ||
SCIP_Bool * | error | ||
) |
solves given cumulative condition as independent sub problem
- Note
- If the problem was solved to the earliest start times (ests) and latest start times (lsts) array contain the solution values; If the problem was not solved these two arrays contain the global bounds at the time the sub solver was interrupted.
- Parameters
-
scip SCIP data structure njobs number of jobs (activities) ests array with the earlier start time for each job lsts array with the latest start time for each job objvals array of objective coefficients for each job (linear objective function), or NULL if none durations array of durations demands array of demands capacity cumulative capacity hmin left bound of time axis to be considered (including hmin) hmax right bound of time axis to be considered (not including hmax) timelimit time limit for solving in seconds memorylimit memory limit for solving in mega bytes (MB) maxnodes maximum number of branch-and-bound nodes to solve the single cumulative constraint (-1: no limit) solved pointer to store if the problem is solved (to optimality) infeasible pointer to store if the problem is infeasible unbounded pointer to store if the problem is unbounded error pointer to store if an error occurred
Definition at line 14302 of file cons_cumulative.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPcreateWorstCaseProfile(), SCIPerrorMessage, SCIPfindConshdlr(), and TRUE.
Referenced by applyOptcumulative(), SCIPsetSolveCumulative(), solveCumulative(), and solveIndependentCons().
◆ SCIPcreateWorstCaseProfile()
SCIP_RETCODE SCIPcreateWorstCaseProfile | ( | SCIP * | scip, |
SCIP_PROFILE * | profile, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
int * | durations, | ||
int * | demands | ||
) |
creates the worst case resource profile, that is, all jobs are inserted with the earliest start and latest completion time
- Parameters
-
scip SCIP data structure profile resource profile nvars number of variables (jobs) vars array of integer variable which corresponds to starting times for a job durations array containing corresponding durations demands array containing corresponding demands
Definition at line 14358 of file cons_cumulative.c.
References computeImpliedEst(), computeImpliedLct(), NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPallocBufferArray, SCIPblkmem(), SCIPcomputeHmin(), SCIPconvertRealToInt(), SCIPfreeBufferArray, SCIPhashmapCreate(), SCIPhashmapFree(), SCIPhashmapInsert(), SCIPprofileInsertCore(), SCIPsortDownIntInt(), SCIPvarGetLbLocal(), and SCIPvarGetUbLocal().
Referenced by computeAlternativeBounds(), computeEffectiveHorizonCumulativeCondition(), propagateCons(), and SCIPsolveCumulative().
◆ SCIPcomputeHmin()
int SCIPcomputeHmin | ( | SCIP * | scip, |
SCIP_PROFILE * | profile, | ||
int | capacity | ||
) |
computes w.r.t. the given worst case resource profile the first time point where the given capacity can be violated
- Parameters
-
scip SCIP data structure profile worst case resource profile capacity capacity to check
Definition at line 14437 of file cons_cumulative.c.
References SCIPcomputeHmax(), SCIPprofileGetLoads(), SCIPprofileGetNTimepoints(), and SCIPprofileGetTimepoints().
Referenced by computeAlternativeBounds(), computeEffectiveHorizonCumulativeCondition(), propagateCons(), and SCIPcreateWorstCaseProfile().
◆ SCIPcomputeHmax()
int SCIPcomputeHmax | ( | SCIP * | scip, |
SCIP_PROFILE * | profile, | ||
int | capacity | ||
) |
computes w.r.t. the given worst case resource profile the first time point where the given capacity is satisfied for sure
- Parameters
-
scip SCIP data structure profile worst case profile capacity capacity to check
Definition at line 14467 of file cons_cumulative.c.
References SCIPprofileGetLoads(), SCIPprofileGetNTimepoints(), and SCIPprofileGetTimepoints().
Referenced by computeAlternativeBounds(), computeEffectiveHorizonCumulativeCondition(), and SCIPcomputeHmin().
◆ SCIPcreateConsDisjunction()
SCIP_RETCODE SCIPcreateConsDisjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nconss, | ||
SCIP_CONS ** | conss, | ||
SCIP_CONS * | relaxcons, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | local, | ||
SCIP_Bool | modifiable, | ||
SCIP_Bool | dynamic | ||
) |
creates and captures a disjunction constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nconss number of initial constraints in disjunction conss initial constraint in disjunction relaxcons a conjunction constraint containing the linear relaxation of the disjunction constraint, or NULL initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints.
Definition at line 1068 of file cons_disjunction.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicDisjunction(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by SCIPcreateConsBasicDisjunction(), and SCIPincludeConshdlrDisjunction().
◆ SCIPcreateConsBasicDisjunction()
SCIP_RETCODE SCIPcreateConsBasicDisjunction | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nconss, | ||
SCIP_CONS ** | conss, | ||
SCIP_CONS * | relaxcons | ||
) |
creates and captures a cumulative constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsDisjunction(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsDisjunction() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nconss number of initial constraints in disjunction conss initial constraint in disjunction relaxcons a conjunction constraint containing the linear relaxation of the disjunction constraint, or NULL
Definition at line 1120 of file cons_disjunction.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddConsElemDisjunction(), SCIPcreateConsDisjunction(), and TRUE.
Referenced by SCIPcreateConsDisjunction().
◆ SCIPaddConsElemDisjunction()
SCIP_RETCODE SCIPaddConsElemDisjunction | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_CONS * | addcons | ||
) |
adds constraint to the disjunction of constraints
- Parameters
-
scip SCIP data structure cons disjunction constraint addcons additional constraint in disjunction
Definition at line 1139 of file cons_disjunction.c.
References consdataAddCons(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPcreateConsBasicDisjunction().
◆ SCIPcreateConsIndicator()
SCIP_RETCODE SCIPcreateConsIndicator | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | vals, | ||
SCIP_Real | rhs, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures an indicator constraint
- Note
- binvar is checked to be binary only later. This enables a change of the type in procedures reading an instance.
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint (indicator or quadratic) name name of constraint binvar binary indicator variable (or NULL) nvars number of variables in the inequality vars array with variables of inequality (or NULL) vals values of variables in inequality (or NULL) rhs rhs of the inequality initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 7301 of file cons_indicator.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_Bool, SCIP_CALL, SCIP_INVALIDDATA, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIP_VARTYPE_CONTINUOUS, SCIP_VARTYPE_IMPLINT, SCIPaddCoefLinear(), SCIPaddCons(), SCIPaddVar(), SCIPblkmem(), SCIPceil(), SCIPconsAddUpgradeLocks(), SCIPconsGetNUpgradeLocks(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicIndicator(), SCIPcreateConsLinear(), SCIPcreateConsQuadratic(), SCIPcreateVar(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetNOrigVars(), SCIPhashmapCreate(), SCIPhashmapExists(), SCIPhashmapInsert(), SCIPinfinity(), SCIPisIntegral(), SCIPisTransformed(), SCIPisZero(), SCIPmarkDoNotMultaggrVar(), SCIPsnprintf(), SCIPvarGetType(), SCIPvarIsIntegral(), and TRUE.
Referenced by createIndicatorConstraint(), readIndicators(), SCIP_DECL_CONSINITPRE(), SCIP_DECL_LINCONSUPGD(), SCIPcreateConsBasicIndicator(), SCIPincludeConshdlrIndicator(), and upgradeIndicatorSuperindicator().
◆ SCIPcreateConsBasicIndicator()
SCIP_RETCODE SCIPcreateConsBasicIndicator | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | vals, | ||
SCIP_Real | rhs | ||
) |
creates and captures an indicator constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsIndicator(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsIndicator() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint (indicator or quadratic) name name of constraint binvar binary indicator variable (or NULL) nvars number of variables in the inequality vars array with variables of inequality (or NULL) vals values of variables in inequality (or NULL) rhs rhs of the inequality
Definition at line 7511 of file cons_indicator.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsIndicator(), SCIPcreateConsIndicatorLinCons(), and TRUE.
Referenced by SCIPcreateConsIndicator().
◆ SCIPcreateConsIndicatorLinCons()
SCIP_RETCODE SCIPcreateConsIndicatorLinCons | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
SCIP_CONS * | lincons, | ||
SCIP_VAR * | slackvar, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures an indicator constraint with given linear constraint and slack variable
- Note
- binvar is checked to be binary only later. This enables a change of the type in procedures reading an instance.
- we assume that slackvar actually appears in lincons and we also assume that it takes the role of a slack variable!
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint binvar binary indicator variable (or NULL) lincons linear constraint slackvar slack variable initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 7540 of file cons_indicator.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIP_VARTYPE_CONTINUOUS, SCIP_VARTYPE_IMPLINT, SCIPcaptureCons(), SCIPcaptureVar(), SCIPconsAddUpgradeLocks(), SCIPconsGetHdlr(), SCIPconsGetNUpgradeLocks(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPcreateCons(), SCIPcreateConsBasicIndicatorLinCons(), SCIPcreateConsQuadratic(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetNVarsLinear(), SCIPgetVarsLinear(), SCIPmarkDoNotMultaggrVar(), SCIPvarGetType(), and TRUE.
Referenced by createSubSCIP(), readIndicators(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicIndicator(), and SCIPcreateConsBasicIndicatorLinCons().
◆ SCIPcreateConsBasicIndicatorLinCons()
SCIP_RETCODE SCIPcreateConsBasicIndicatorLinCons | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
SCIP_CONS * | lincons, | ||
SCIP_VAR * | slackvar | ||
) |
creates and captures an indicator constraint with given linear constraint and slack variable in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsIndicator(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- Note
- binvar is checked to be binary only later. This enables a change of the type in procedures reading an instance.
- we assume that slackvar actually appears in lincons and we also assume that it takes the role of a slack variable!
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- See also
- SCIPcreateConsIndicatorLinCons() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint binvar binary indicator variable (or NULL) lincons linear constraint slackvar slack variable
Definition at line 7682 of file cons_indicator.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddVarIndicator(), SCIPcreateConsIndicatorLinCons(), and TRUE.
Referenced by SCIPcreateConsIndicatorLinCons().
◆ SCIPaddVarIndicator()
SCIP_RETCODE SCIPaddVarIndicator | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | val | ||
) |
adds variable to the inequality of the indicator constraint
- Parameters
-
scip SCIP data structure cons indicator constraint var variable to add to the inequality val value of variable
Definition at line 7701 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_VARTYPE_CONTINUOUS, SCIPaddCoefLinear(), SCIPchgVarType(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPgetLinearConsIndicator(), SCIPisIntegral(), SCIPvarGetType(), and SCIPvarIsIntegral().
Referenced by SCIPcreateConsBasicIndicatorLinCons().
◆ SCIPgetLinearConsIndicator()
gets the linear constraint corresponding to the indicator constraint (may be NULL)
- Parameters
-
cons indicator constraint
Definition at line 7732 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPsetLinearConsIndicator().
Referenced by computeRanks(), createSubSCIP(), SCIP_DECL_LINCONSUPGD(), SCIPaddVarIndicator(), SCIPwriteLp(), SCIPwriteMps(), and writeOpbConstraints().
◆ SCIPsetLinearConsIndicator()
SCIP_RETCODE SCIPsetLinearConsIndicator | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_CONS * | lincons | ||
) |
sets the linear constraint corresponding to the indicator constraint (may be NULL)
- Parameters
-
scip SCIP data structure cons indicator constraint lincons linear constraint
Definition at line 7749 of file cons_indicator.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIP_VARTYPE_CONTINUOUS, SCIP_VARTYPE_IMPLINT, SCIPcaptureCons(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPdelCons(), SCIPerrorMessage, SCIPgetBinaryVarIndicator(), SCIPgetNVarsLinear(), SCIPgetStage(), SCIPgetVarsLinear(), SCIPreleaseCons(), SCIPvarGetType(), and TRUE.
Referenced by SCIPgetLinearConsIndicator().
◆ SCIPsetBinaryVarIndicator()
SCIP_RETCODE SCIPsetBinaryVarIndicator | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | binvar | ||
) |
sets binary indicator variable for indicator constraint
- Parameters
-
scip SCIP data structure cons indicator constraint binvar binary variable to add to the inequality
Definition at line 7837 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_ERROR, SCIP_EVENTTYPE_BOUNDCHANGED, SCIP_EVENTTYPE_GBDCHANGED, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_VARTYPE_BINARY, SCIPcatchVarEvent(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPconsIsTransformed(), SCIPerrorMessage, SCIPgetSlackVarIndicator(), SCIPgetTransformedVar(), SCIPvarGetLbLocal(), SCIPvarGetName(), and SCIPvarGetType().
Referenced by SCIPgetBinaryVarIndicator().
◆ SCIPgetBinaryVarIndicator()
gets binary variable corresponding to indicator constraint
- Parameters
-
cons indicator constraint
Definition at line 7820 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPsetBinaryVarIndicator().
Referenced by computeRanks(), createCoveringProblem(), createSubSCIP(), SCIP_DECL_CONFLICTEXEC(), SCIP_DECL_CONSGETDIVEBDCHGS(), SCIP_DECL_HEUREXEC(), SCIPsetLinearConsIndicator(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), tryOneOpt(), trySolCandidate(), and writeOpbConstraints().
◆ SCIPgetSlackVarIndicator()
gets slack variable corresponding to indicator constraint
- Parameters
-
cons indicator constraint
Definition at line 7911 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPsetSlackVarUb().
Referenced by createSubSCIP(), SCIP_DECL_CONFLICTEXEC(), SCIPsetBinaryVarIndicator(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and writeOpbConstraints().
◆ SCIPsetSlackVarUb()
SCIP_RETCODE SCIPsetSlackVarUb | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Real | ub | ||
) |
sets upper bound for slack variable corresponding to indicator constraint
Use with care if you know that the maximal violation of the corresponding constraint is at most ub
. This bound might be improved automatically during the solution process.
- Precondition
- This method should only be called if SCIP is in one of the following stages:
- Parameters
-
scip SCIP data structure cons indicator constraint ub upper bound for slack variable
Definition at line 7936 of file cons_indicator.c.
References CONSHDLR_NAME, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPchgVarUb(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPgetStage(), and SCIPisViolatedIndicator().
Referenced by SCIPgetSlackVarIndicator().
◆ SCIPisViolatedIndicator()
checks whether indicator constraint is violated w.r.t. sol
- Parameters
-
scip SCIP data structure cons indicator constraint sol solution, or NULL to use current node's solution
Definition at line 7962 of file cons_indicator.c.
References FALSE, NULL, SCIPconsGetData(), SCIPconsIsDeleted(), SCIPgetSolVal(), SCIPisFeasPositive(), SCIPmakeIndicatorFeasible(), and TRUE.
Referenced by SCIP_DECL_CONSGETDIVEBDCHGS(), and SCIPsetSlackVarUb().
◆ SCIPmakeIndicatorFeasible()
SCIP_RETCODE SCIPmakeIndicatorFeasible | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_Bool * | changed | ||
) |
based on values of other variables, computes slack and binary variable to turn constraint feasible
based on values of other variables, computes slack and binary variable to turn constraint feasible
It will also clean up the solution, i.e., shift slack variable, as follows:
If the inequality is \(a^T x + \gamma\, s \leq \beta\), the value of the slack variable \(s\) to achieve equality is
\[ s^* = \frac{\beta - a^T x^*}{\gamma}, \]
where \(x^*\) is the given solution. In case of \(a^T x + \gamma\, s \geq \alpha\), we arrive at
\[ s^* = \frac{\alpha - a^T x^*}{\gamma}. \]
The typical values of \(\gamma\) in the first case is -1 and +1 in the second case.
Now, let \(\sigma\) be the sign of \(\gamma\) in the first case and \(-\gamma\) in the second case. Thus, if \(\sigma > 0\) and \(s^* < 0\), the inequality cannot be satisfied by a nonnegative value for the slack variable; in this case, we have to leave the values as they are. If \(\sigma < 0\) and \(s^* > 0\), the solution violates the indicator constraint (we can set the slack variable to value \(s^*\)). If \(\sigma < 0\) and \(s^* \leq 0\) or \(\sigma > 0\) and \(s^* \geq 0\), the constraint is satisfied, and we can set the slack variable to 0.
- Parameters
-
scip SCIP data structure cons indicator constraint sol solution changed pointer to store whether the solution has been changed
Definition at line 8017 of file cons_indicator.c.
References CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_CALL, SCIP_LOCKTYPE_MODEL, SCIP_OKAY, SCIP_Real, SCIP_STAGE_INITPRESOLVE, SCIP_VARSTATUS_FIXED, SCIP_VARSTATUS_NEGATED, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsActive(), SCIPgetLhsLinear(), SCIPgetNVarsLinear(), SCIPgetRhsLinear(), SCIPgetSolVal(), SCIPgetStage(), SCIPgetValsLinear(), SCIPgetVarsLinear(), SCIPisFeasEQ(), SCIPisFeasGE(), SCIPisFeasNegative(), SCIPisFeasPositive(), SCIPisFeasZero(), SCIPisInfinity(), SCIPisZero(), SCIPmakeIndicatorsFeasible(), SCIPsetSolVal(), SCIPvarGetLbLocal(), SCIPvarGetNegationVar(), SCIPvarGetNLocksDownType(), SCIPvarGetNLocksUpType(), SCIPvarGetStatus(), TRUE, and varGetObjDelta().
Referenced by SCIP_DECL_CONSCHECK(), SCIPisViolatedIndicator(), and SCIPmakeIndicatorsFeasible().
◆ SCIPmakeIndicatorsFeasible()
SCIP_RETCODE SCIPmakeIndicatorsFeasible | ( | SCIP * | scip, |
SCIP_CONSHDLR * | conshdlr, | ||
SCIP_SOL * | sol, | ||
SCIP_Bool * | changed | ||
) |
based on values of other variables, computes slack and binary variable to turn all constraints feasible
- Parameters
-
scip SCIP data structure conshdlr indicator constraint handler sol solution changed pointer to store whether the solution has been changed
Definition at line 8192 of file cons_indicator.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_STAGE_INITPRESOLVE, SCIPaddLinearConsIndicator(), SCIPconsGetData(), SCIPconshdlrGetConss(), SCIPconshdlrGetName(), SCIPconshdlrGetNConss(), SCIPgetStage(), and SCIPmakeIndicatorFeasible().
Referenced by SCIPmakeIndicatorFeasible(), and SCIPperformGenericDivingAlgorithm().
◆ SCIPaddLinearConsIndicator()
SCIP_RETCODE SCIPaddLinearConsIndicator | ( | SCIP * | scip, |
SCIP_CONSHDLR * | conshdlr, | ||
SCIP_CONS * | lincons | ||
) |
adds additional linear constraint that is not connected with an indicator constraint, but can be used for separation
- Parameters
-
scip SCIP data structure conshdlr indicator constraint handler lincons linear constraint
Definition at line 8239 of file cons_indicator.c.
References consdataEnsureAddLinConsSize(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddRowIndicator(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), and SCIPconsIsLocal().
Referenced by SCIPmakeIndicatorsFeasible().
◆ SCIPaddRowIndicator()
SCIP_RETCODE SCIPaddRowIndicator | ( | SCIP * | scip, |
SCIP_CONSHDLR * | conshdlr, | ||
SCIP_ROW * | row | ||
) |
adds additional globally valid row that is not connected with an indicator constraint, but can be used for separation
adds additional row that is not connected with an indicator constraint, but can be used for separation
- Note
- The row is directly added to the alternative polyhedron and is not stored.
- Parameters
-
scip SCIP data structure conshdlr indicator constraint handler row row to add
Definition at line 8271 of file cons_indicator.c.
References addAltLPRow(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIProwGetName(), and SCIProwIsLocal().
Referenced by SCIP_DECL_CONSINITLP(), SCIPaddLinearConsIndicator(), and separatePoint().
◆ SCIPcreateConsKnapsack()
SCIP_RETCODE SCIPcreateConsKnapsack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Longint * | weights, | ||
SCIP_Longint | capacity, | ||
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 | ||
) |
creates and captures a knapsack constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a knapsack constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()! [SnippetConsCreationKnapsack]
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of items in the knapsack vars array with item variables weights array with item weights capacity capacity of knapsack (right hand side of inequality) initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 13472 of file cons_knapsack.c.
References catchEvents(), consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_Longint, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicKnapsack(), SCIPerrorMessage, SCIPfindConshdlr(), and SCIPisTransformed().
Referenced by createAndAddLinearCons(), createCapacityRestriction(), createMipCpFormulation(), createNormalizedKnapsack(), createRow(), presolRoundCardinality(), and SCIPcreateConsBasicKnapsack().
◆ SCIPcreateConsBasicKnapsack()
SCIP_RETCODE SCIPcreateConsBasicKnapsack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Longint * | weights, | ||
SCIP_Longint | capacity | ||
) |
creates and captures a knapsack constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsKnapsack(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsKnapsack() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
! [SnippetConsCreationKnapsack] creates and captures a knapsack constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsKnapsack(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsKnapsack() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of items in the knapsack vars array with item variables weights array with item weights capacity capacity of knapsack
Definition at line 13547 of file cons_knapsack.c.
References FALSE, NULL, SCIP_CALL, SCIP_Longint, SCIP_OKAY, SCIPaddCoefKnapsack(), SCIPcreateConsKnapsack(), and TRUE.
Referenced by createIntervalRelaxation(), createMipFormulation(), initPricing(), SCIP_DECL_SOLVECUMULATIVE(), and SCIPcreateConsKnapsack().
◆ SCIPaddCoefKnapsack()
SCIP_RETCODE SCIPaddCoefKnapsack | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Longint | weight | ||
) |
adds new item to knapsack constraint
- Parameters
-
scip SCIP data structure cons constraint data var item variable weight item weight
Definition at line 13566 of file cons_knapsack.c.
References addCoef(), CONSHDLR_NAME, SCIP_CALL, SCIP_INVALIDDATA, SCIP_Longint, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetCapacityKnapsack().
Referenced by addCoefTerm(), createCapacityRestriction(), createIntervalRelaxation(), createMipCpFormulation(), createMipFormulation(), SCIP_DECL_SOLVECUMULATIVE(), SCIPaddCoefPseudoboolean(), and SCIPcreateConsBasicKnapsack().
◆ SCIPgetCapacityKnapsack()
SCIP_Longint SCIPgetCapacityKnapsack | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets the capacity of the knapsack constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13587 of file cons_knapsack.c.
References NULL, SCIP_Longint, SCIPABORT, SCIPchgCapacityKnapsack(), SCIPconsGetData(), and SCIPerrorMessage.
Referenced by addKnapsackConstraints(), checkKnapsack(), computeSymmetryGroup(), createAltLP(), getLinearConsSides(), presolveAddKKTKnapsackConss(), SCIPaddCoefKnapsack(), SCIPconsGetRhs(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPchgCapacityKnapsack()
SCIP_RETCODE SCIPchgCapacityKnapsack | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Longint | capacity | ||
) |
changes capacity of the knapsack constraint
- Note
- This method can only be called during problem creation stage (SCIP_STAGE_PROBLEM)
- Parameters
-
scip SCIP data structure cons constraint data capacity new capacity of knapsack
Definition at line 13611 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetNVarsKnapsack(), and SCIPgetStage().
Referenced by SCIPgetCapacityKnapsack().
◆ SCIPgetNVarsKnapsack()
gets the number of items in the knapsack constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13640 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsKnapsack().
Referenced by addKnapsackConstraints(), checkKnapsack(), computeSymmetryGroup(), createAltLP(), getLinearConsNVars(), getLinearConsVarsData(), presolveAddKKTKnapsackConss(), SCIPchgCapacityKnapsack(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetVarsKnapsack()
gets the array of variables in the knapsack constraint; the user must not modify this array!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13661 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIP_Longint, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetWeightsKnapsack().
Referenced by addKnapsackConstraints(), checkKnapsack(), computeSymmetryGroup(), createAltLP(), getLinearConsVarsData(), presolveAddKKTKnapsackConss(), SCIPgetNVarsKnapsack(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetWeightsKnapsack()
SCIP_Longint* SCIPgetWeightsKnapsack | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets the array of weights in the knapsack constraint; the user must not modify this array!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13682 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDualsolKnapsack().
Referenced by addKnapsackConstraints(), checkKnapsack(), computeSymmetryGroup(), createAltLP(), getLinearConsVarsData(), presolveAddKKTKnapsackConss(), SCIPgetConsVals(), SCIPgetVarsKnapsack(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetDualsolKnapsack()
gets the dual solution of the knapsack constraint in the current LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13703 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetDualfarkasKnapsack(), and SCIProwGetDualsol().
Referenced by SCIPconsGetDualsol(), and SCIPgetWeightsKnapsack().
◆ SCIPgetDualfarkasKnapsack()
gets the dual Farkas value of the knapsack constraint in the current infeasible LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13727 of file cons_knapsack.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetRowKnapsack(), and SCIProwGetDualfarkas().
Referenced by SCIPconsGetDualfarkas(), and SCIPgetDualsolKnapsack().
◆ SCIPgetRowKnapsack()
returns the linear relaxation of the given knapsack constraint; may return NULL if no LP row was yet created; the user must not modify the row!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 13753 of file cons_knapsack.c.
References NULL, SCIPABORT, SCIPconsGetData(), and SCIPerrorMessage.
Referenced by SCIPconsGetRow(), and SCIPgetDualfarkasKnapsack().
◆ SCIPsolveKnapsackExactly()
SCIP_RETCODE SCIPsolveKnapsackExactly | ( | SCIP * | scip, |
int | nitems, | ||
SCIP_Longint * | weights, | ||
SCIP_Real * | profits, | ||
SCIP_Longint | capacity, | ||
int * | items, | ||
int * | solitems, | ||
int * | nonsolitems, | ||
int * | nsolitems, | ||
int * | nnonsolitems, | ||
SCIP_Real * | solval, | ||
SCIP_Bool * | success | ||
) |
solves knapsack problem in maximization form exactly using dynamic programming; if needed, one can provide arrays to store all selected items and all not selected items
solves knapsack problem in maximization form exactly using dynamic programming; if needed, one can provide arrays to store all selected items and all not selected items
- Note
- in case you provide the solitems or nonsolitems array you also have to provide the counter part as well
- Parameters
-
scip SCIP data structure nitems number of available items weights item weights profits item profits capacity capacity of knapsack items item numbers solitems array to store items in solution, or NULL nonsolitems array to store items not in solution, or NULL nsolitems pointer to store number of items in solution, or NULL nnonsolitems pointer to store number of items not in solution, or NULL solval pointer to store optimal solution value, or NULL success pointer to store if an error occured during solving (normally a memory problem)
Definition at line 1028 of file cons_knapsack.c.
References FALSE, IDX, MAX, NULL, SCIP_Bool, SCIP_CALL, SCIP_Longint, SCIP_LONGINT_FORMAT, SCIP_LONGINT_MAX, SCIP_NOMEMORY, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPcalcGreComDiv(), SCIPdebugMsg, SCIPfreeBufferArray, SCIPsolveKnapsackApproximately(), SCIPsortDownRealIntLong(), SCIPsortDownRealLongRealInt(), and TRUE.
Referenced by buildFlowCover(), checkCons(), and getHighestCapacityUsage().
◆ SCIPsolveKnapsackApproximately()
SCIP_RETCODE SCIPsolveKnapsackApproximately | ( | SCIP * | scip, |
int | nitems, | ||
SCIP_Longint * | weights, | ||
SCIP_Real * | profits, | ||
SCIP_Longint | capacity, | ||
int * | items, | ||
int * | solitems, | ||
int * | nonsolitems, | ||
int * | nsolitems, | ||
int * | nnonsolitems, | ||
SCIP_Real * | solval | ||
) |
solves knapsack problem in maximization form approximately by solving the LP-relaxation of the problem using Dantzig's method and rounding down the solution; if needed, one can provide arrays to store all selected items and all not selected items
- Parameters
-
scip SCIP data structure nitems number of available items weights item weights profits item profits capacity capacity of knapsack items item numbers solitems array to store items in solution, or NULL nonsolitems array to store items not in solution, or NULL nsolitems pointer to store number of items in solution, or NULL nnonsolitems pointer to store number of items not in solution, or NULL solval pointer to store optimal solution value, or NULL
Definition at line 1567 of file cons_knapsack.c.
References GUBconsCreate(), SCIP_GUBSet::gubconss, SCIP_GUBCons::gubvars, SCIP_GUBSet::ngubconss, SCIP_GUBCons::ngubvars, NULL, SCIP_CALL, SCIP_Longint, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPdebugMsg, SCIPfreeBufferArray, SCIPisFeasGT(), SCIPselectWeightedDownRealLongRealInt(), and SCIPvarGetName().
Referenced by getCover(), and SCIPsolveKnapsackExactly().
◆ SCIPseparateKnapsackCuts()
SCIP_RETCODE SCIPseparateKnapsackCuts | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SEPA * | sepa, | ||
SCIP_VAR ** | vars, | ||
int | nvars, | ||
SCIP_Longint * | weights, | ||
SCIP_Longint | capacity, | ||
SCIP_SOL * | sol, | ||
SCIP_Bool | usegubs, | ||
SCIP_Bool * | cutoff, | ||
int * | ncuts | ||
) |
separates different classes of valid inequalities for the 0-1 knapsack problem
- Parameters
-
scip SCIP data structure cons originating constraint of the knapsack problem, or NULL sepa originating separator of the knapsack problem, or NULL vars variables in knapsack constraint nvars number of variables in knapsack constraint weights weights of variables in knapsack constraint capacity capacity of knapsack sol primal SCIP solution to separate, NULL for current LP solution usegubs should GUB information be used for separation? cutoff pointer to store whether a cutoff has been detected ncuts pointer to add up the number of found cuts
Definition at line 5553 of file cons_knapsack.c.
References FALSE, getCover(), getFeasibleSet(), GUBsetCreate(), GUBsetFree(), GUBsetGetCliquePartition(), makeCoverMinimal(), SCIP_GUBSet::ngubconss, NULL, SCIP_GUBSet::nvars, SCIP_Bool, SCIP_CALL, SCIP_Longint, SCIP_LONGINT_FORMAT, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPconsGetName(), SCIPdebugMsg, SCIPdebugMsgPrint, SCIPfreeBufferArray, SCIPgetSolVals(), SCIPincConsAge(), SCIPseparateRelaxedKnapsack(), SCIPvarGetName(), separateSequLiftedMinimalCoverInequality(), separateSupLiftedMinimalCoverInequality(), TRUE, and USESUPADDLIFT.
Referenced by getFeasibleSet(), SCIPseparateRelaxedKnapsack(), and separateCons().
◆ SCIPseparateRelaxedKnapsack()
SCIP_RETCODE SCIPseparateRelaxedKnapsack | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SEPA * | sepa, | ||
int | nknapvars, | ||
SCIP_VAR ** | knapvars, | ||
SCIP_Real * | knapvals, | ||
SCIP_Real | valscale, | ||
SCIP_Real | rhs, | ||
SCIP_SOL * | sol, | ||
SCIP_Bool * | cutoff, | ||
int * | ncuts | ||
) |
- Parameters
-
scip SCIP data structure cons originating constraint of the knapsack problem, or NULL sepa originating separator of the knapsack problem, or NULL nknapvars number of variables in the continuous knapsack constraint knapvars variables in the continuous knapsack constraint knapvals coefficients of the variables in the continuous knapsack constraint valscale -1.0 if lhs of row is used as rhs of c. k. constraint, +1.0 otherwise rhs right hand side of the continuous knapsack constraint sol primal CIP solution, NULL for current LP solution cutoff pointer to store whether a cutoff was found ncuts pointer to add up the number of found cuts
Definition at line 5770 of file cons_knapsack.c.
References BMSclearMemoryArray, CONSHDLR_NAME, DEFAULT_USEGUBS, FALSE, KNAPSACKRELAX_MAXDELTA, KNAPSACKRELAX_MAXDNOM, KNAPSACKRELAX_MAXSCALE, MAXABSVBCOEF, NULL, REALABS, SCIP_Bool, SCIP_CALL, SCIP_Longint, SCIP_LONGINT_FORMAT, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPcalcIntegralScalar(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPdebug, SCIPdebugMsg, SCIPdebugMsgPrint, SCIPdebugPrintCons, SCIPepsilon(), SCIPfeasFloor(), SCIPfindConshdlr(), SCIPfloor(), SCIPfreeBufferArray, SCIPgetNContVars(), SCIPgetNegatedVar(), SCIPgetNVars(), SCIPgetSolVal(), SCIPgetVars(), SCIPisFeasGT(), SCIPisFeasLT(), SCIPisGE(), SCIPisGT(), SCIPisInfinity(), SCIPisLE(), SCIPisLT(), SCIPreallocBlockMemoryArray, SCIPseparateKnapsackCuts(), SCIPvarGetLbGlobal(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetNVlbs(), SCIPvarGetNVubs(), SCIPvarGetProbindex(), SCIPvarGetUbGlobal(), SCIPvarGetUbLocal(), SCIPvarGetVlbCoefs(), SCIPvarGetVlbConstants(), SCIPvarGetVlbVars(), SCIPvarGetVubCoefs(), SCIPvarGetVubConstants(), SCIPvarGetVubVars(), SCIPvarIsActive(), SCIPvarIsBinary(), separateCons(), and TRUE.
Referenced by addCut(), and SCIPseparateKnapsackCuts().
◆ SCIPincludeLinconsUpgrade()
SCIP_RETCODE SCIPincludeLinconsUpgrade | ( | SCIP * | scip, |
SCIP_DECL_LINCONSUPGD((*linconsupgd)) | , | ||
int | priority, | ||
const char * | conshdlrname | ||
) |
includes a linear constraint update method into the linear constraint handler
- Parameters
-
scip SCIP data structure priority priority of upgrading method conshdlrname name of the constraint handler
Definition at line 17520 of file cons_linear.c.
Referenced by SCIPincludeConshdlrIndicator(), SCIPincludeConshdlrLogicor(), SCIPincludeConshdlrVarbound(), and SCIPincludeConshdlrXor().
◆ SCIPcreateConsLinear()
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 | ||
) |
creates and captures a linear constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint 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 constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 17572 of file cons_linear.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIP_STAGE_EXITPRESOLVE, SCIPABORT, SCIPcreateCons(), SCIPcreateConsBasicLinear(), SCIPcreateConsLinear(), SCIPduplicateBufferArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, SCIPgetProbvarLinearSum(), SCIPgetStage(), SCIPinfinity(), SCIPisInfinity(), SCIPreallocBufferArray, and TRUE.
Referenced by addBranchingComplementaritiesSOS1(), addExtendedAsymmetricFormulation(), addExtendedFlowFormulation(), addLocalBranchingConstraint(), addLocalConss(), addScenarioConsToProb(), aggregateConstraints(), applyFixings(), branchOnVertex(), cancelRow(), consdataLinearize(), copyCuts(), CREATE_CONSTRAINT(), createAndAddLinearCons(), createAndAddProofcons(), createConstraints(), createCoveringProblem(), createDegreeConstraints(), createHopConstraint(), createLinearCons(), createMipCpFormulation(), createNAryBranch(), createPrizeConstraints(), createProbOnlyEdge(), createProbSimplified(), createProbSimplifiedTest(), createRows(), createSubSCIP(), createSubscip(), dualPresolve(), execmain(), fixDeleteOrUpgradeCons(), fixVariableZeroNode(), forbidCover(), getFixedVariable(), preprocessConstraintPairs(), presolveCreateBenTalNemirovskiApproxDim3(), presolveCreateGlineurApproxDim3(), presolveFindDuplicates(), presolveFindDuplicatesUpgradeCons(), presolveRemoveFixedVariables(), presolveTryAddLinearReform(), propIndicator(), scipexamples::QueensSolver::QueensSolver(), readCnf(), readConstraints(), readOPBFile(), readRows(), readRowsMop(), replaceByLinearConstraints(), replaceViolatedByLinearConstraints(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSINITPRE(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIP_DECL_READERREAD(), SCIPcopyConsLinear(), SCIPcreateConsIndicator(), SCIPcreateConsLinear(), SCIPgetVarCopy(), SCIPStpDualAscent(), SCIPStpDualAscentPcMw(), selectVarMultAggrBranching(), setupAndSolveSubscip(), setupSubproblem(), setupSubScip(), tightenBounds(), tightenSingleVar(), tryUpgradingLogicor(), tryUpgradingSetppc(), and upgradeLinearSuperindicator().
◆ SCIPcreateConsBasicLinear()
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 | ||
) |
creates and captures a linear constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsLinear(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsLinear() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint 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 constraint rhs right hand side of constraint
Definition at line 17751 of file cons_linear.c.
Referenced by addLocalBranchingConstraint(), applyRepair(), polyscip::Polyscip::computeNondomPoints(), createAndAddTransferredCut(), createKKTComplementarityBinary(), createKKTComplementarityBounds(), createKKTComplementarityLinear(), createKKTDualCons(), createMasterproblem(), createMIP(), createMipFormulation(), createOriginalproblem(), createProbSimplified(), createProbSimplifiedTest(), createSubproblem(), createSubproblems(), disaggregate(), generateAndApplyBendersCuts(), generateAndApplyBendersIntegerCuts(), generateAndApplyBendersNogoodCut(), readLIBSVM(), SCIPapplyProximity(), SCIPbendersMergeSubproblemIntoMaster(), SCIPcreateConsLinear(), SCIPverifyCircularPatternNLP(), setupAndSolveFiniteSolSubscip(), setupProblem(), and solvePricingMINLP().
◆ SCIPcopyConsLinear()
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 | ||
) |
creates by copying and captures a linear constraint
- Parameters
-
scip target SCIP data structure cons pointer to store the created target constraint sourcescip source SCIP data structure name name of constraint nvars number of variables in source variable array sourcevars source variables of the linear constraints sourcecoefs coefficient array of the linear constraint, or NULL if all coefficients are one lhs left hand side of the linear constraint rhs right hand side of the linear constraint varmap a SCIP_HASHMAP mapping variables of the source SCIP to corresponding variables of the target SCIP consmap a hashmap to store the mapping of source constraints to the corresponding target constraints initial should the LP relaxation of constraint be in the initial LP? separate should the constraint be separated during LP processing? enforce should the constraint be enforced during node processing? check should the constraint be checked for feasibility? propagate should the constraint be propagated during node processing? local is constraint only valid locally? modifiable is constraint modifiable (subject to column generation)? dynamic is constraint subject to aging? removable should the relaxation be removed from the LP due to aging or cleanup? stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? global create a global or a local copy? valid pointer to store if the copying was valid
Definition at line 17771 of file cons_linear.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_Real, SCIPaddCoefLinear(), SCIPallocBufferArray, SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPcreateConsLinear(), SCIPduplicateBufferArray, SCIPerrorMessage, SCIPfreeBufferArray, SCIPgetProbvarLinearSum(), SCIPgetVarCopy(), SCIPisGT(), SCIPisInfinity(), SCIPreallocBufferArray, SCIPvarGetOrigvarSum(), SCIPvarIsOriginal(), and TRUE.
Referenced by SCIP_DECL_CONSCOPY().
◆ SCIPaddCoefLinear()
SCIP_RETCODE SCIPaddCoefLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | val | ||
) |
adds coefficient to linear constraint (if it is not zero)
- Parameters
-
scip SCIP data structure cons constraint data var variable of constraint entry val coefficient of constraint entry
Definition at line 17900 of file cons_linear.c.
References addCoef(), chgLhs(), chgRhs(), CONSHDLR_NAME, NULL, REALABS, SCIP_Bool, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_Real, SCIPABORT, SCIPallocBufferArray, SCIPchgCoefLinear(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPfreeBufferArray, SCIPgetProbvarLinearSum(), SCIPinfinity(), SCIPisInfinity(), SCIPreallocBufferArray, SCIPvarGetName(), and TRUE.
Referenced by ObjPricerVRP::add_tour_variable(), addAuxiliaryVariableToCut(), addCoefTerm(), addScenarioConsToProb(), addVariable(), applyFixings(), applyRepair(), branchOnVertex(), computeNogoodCut(), computeStandardFeasibilityCut(), computeStandardIntegerOptCut(), computeStandardOptimalityCut(), consdataLinearize(), createAndAddLinearCons(), createAndAddProofcons(), createAndAddTransferredCut(), createKKTComplementarityBinary(), createKKTComplementarityBounds(), createKKTComplementarityLinear(), createKKTDualCons(), createMasterproblem(), createMIP(), createMipCpFormulation(), createMipFormulation(), createOriginalproblem(), createProbOnlyEdge(), createProbSimplified(), createProbSimplifiedTest(), createSubproblem(), createSubproblems(), createSubSCIP(), createVariables(), execmain(), getBoundConsFromVertices(), presolveAddKKTLinearCons(), presolveAddKKTQuadBilinearTerms(), presolveAddKKTQuadLinearTerms(), presolveAddKKTQuadQuadraticTerms(), pricing(), scipexamples::QueensSolver::QueensSolver(), readCols(), readColsMop(), readIndicators(), readLinearCoefs(), SCIP_DECL_CONSINITPRE(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIP_DECL_READERREAD(), SCIPaddCoefPseudoboolean(), SCIPaddVarIndicator(), SCIPapplyProximity(), SCIPbendersMergeSubproblemIntoMaster(), SCIPchgCoefLinear(), SCIPcopyConsLinear(), SCIPcreateConsIndicator(), SCIPgetVarCopy(), SCIPprobdataAddNewSol(), SCIPStpDualAscent(), SCIPStpDualAscentPcMw(), SCIPverifyCircularPatternNLP(), setupAndSolveFiniteSolSubscip(), setupAndSolveSubscip(), setupProblem(), setupSubproblem(), setupSubScip(), solvePricingMINLP(), tightenSingleVar(), tryUpgradingLogicor(), and tryUpgradingSetppc().
◆ SCIPchgCoefLinear()
SCIP_RETCODE SCIPchgCoefLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | val | ||
) |
changes coefficient of variable in linear constraint; deletes the variable if coefficient is zero; adds variable if not yet contained in the constraint
- Note
- This method may only be called during problem creation stage for an original constraint and variable.
- This method requires linear time to search for occurences of the variable in the constraint data.
- Parameters
-
scip SCIP data structure cons constraint data var variable of constraint entry val new coefficient of constraint entry
Definition at line 18061 of file cons_linear.c.
References chgCoefPos(), delCoefPos(), FALSE, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_Real, SCIP_STAGE_PROBLEM, SCIPaddCoefLinear(), SCIPchgCoefLinear(), SCIPconsGetData(), SCIPconsIsOriginal(), SCIPdelCoefLinear(), SCIPerrorMessage, SCIPgetLhsLinear(), SCIPgetStage(), SCIPisZero(), SCIPvarIsOriginal(), and TRUE.
Referenced by addScenarioVarsAndConsToProb(), SCIPaddCoefLinear(), and SCIPchgCoefLinear().
◆ SCIPdelCoefLinear()
SCIP_RETCODE SCIPdelCoefLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var | ||
) |
deletes variable from linear constraint
- Note
- This method may only be called during problem creation stage for an original constraint and variable.
- This method requires linear time to search for occurences of the variable in the constraint data.
- Parameters
-
scip SCIP data structure cons constraint data var variable of constraint entry
Definition at line 18129 of file cons_linear.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPchgCoefLinear().
◆ SCIPgetLhsLinear()
gets left hand side of linear constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18145 of file cons_linear.c.
Referenced by addAltLPConstraint(), addLinearConstraints(), addScenarioConsToProb(), addScenarioVarsAndConsToProb(), checkConsnames(), checkLinearConssVarboundSOS1(), computeNogoodCut(), computeStandardFeasibilityCut(), computeStandardIntegerOptCut(), computeStandardOptimalityCut(), computeSymmetryGroup(), createAltLP(), createAndAddProofcons(), generateAndApplyBendersIntegerCuts(), getLinearConsSides(), presolveAddKKTLinearConss(), presolveAddKKTQuadLinearTerms(), printRangeSection(), readIndicators(), readNonlinearExprs(), readQCMatrix(), readQuadraticCoefs(), readRanges(), readRhs(), saveConsLinear(), SCIP_DECL_CONSLOCK(), SCIP_DECL_CONSPARSE(), SCIP_DECL_PARAMCHGD(), SCIP_DECL_PRESOLEXEC(), SCIPchgCoefLinear(), SCIPconflictstoreCleanNewIncumbent(), SCIPconsGetLhs(), SCIPgetDualSolVal(), SCIPmakeIndicatorFeasible(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), separatePerspective(), tightenVarsBoundsSOS1(), transferBendersCuts(), upgradeIndicatorSuperindicator(), upgradeLinearSuperindicator(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetRhsLinear()
gets right hand side of linear constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18168 of file cons_linear.c.
Referenced by addAltLPConstraint(), addLinearConstraints(), addScenarioConsToProb(), addScenarioVarsAndConsToProb(), checkLinearConssVarboundSOS1(), computeStandardFeasibilityCut(), computeStandardOptimalityCut(), computeSymmetryGroup(), createAltLP(), createAndAddProofcons(), getLinearConsSides(), presolveAddKKTLinearConss(), presolveAddKKTQuadLinearTerms(), printRangeSection(), propIndicator(), readIndicators(), readNonlinearExprs(), readQCMatrix(), readQuadraticCoefs(), readRanges(), readRhs(), saveConsLinear(), SCIP_DECL_CONSLOCK(), SCIP_DECL_CONSPARSE(), SCIP_DECL_PARAMCHGD(), SCIP_DECL_PRESOLEXEC(), SCIPapplyProximity(), SCIPconflictstoreCleanNewIncumbent(), SCIPconsGetRhs(), SCIPgetDualSolVal(), SCIPmakeIndicatorFeasible(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), separatePerspective(), tightenVarsBoundsSOS1(), transferBendersCuts(), upgradeIndicatorSuperindicator(), upgradeLinearSuperindicator(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPchgLhsLinear()
SCIP_RETCODE SCIPchgLhsLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Real | lhs | ||
) |
changes left hand side of linear constraint
- Parameters
-
scip SCIP data structure cons constraint data lhs new left hand side
Definition at line 18191 of file cons_linear.c.
References chgRhs(), CONSHDLR_NAME, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by addScenarioVarsAndConsToProb(), applyFixings(), chgLhsLinearCons(), computeNogoodCut(), polyscip::Polyscip::computeNondomPoints(), computeStandardFeasibilityCut(), computeStandardIntegerOptCut(), computeStandardOptimalityCut(), fixDiscreteVars(), generateAndApplyBendersIntegerCuts(), presolveAddKKTQuadLinearTerms(), readIndicators(), readRanges(), readRhs(), SCIP_DECL_PRESOLEXEC(), SCIPconflictstoreCleanNewIncumbent(), and tryUpgradingLogicor().
◆ SCIPchgRhsLinear()
SCIP_RETCODE SCIPchgRhsLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Real | rhs | ||
) |
changes right hand side of linear constraint
- Parameters
-
scip SCIP data structure cons constraint data rhs new right hand side
Definition at line 18212 of file cons_linear.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by addScenarioVarsAndConsToProb(), applyFixings(), chgRhsLinearCons(), polyscip::Polyscip::computeNondomPoints(), fixDiscreteVars(), presolveAddKKTQuadLinearTerms(), readRanges(), readRhs(), SCIP_DECL_PRESOLEXEC(), SCIPapplyHeurDualval(), SCIPapplyProximity(), SCIPconflictstoreCleanNewIncumbent(), and tryUpgradingSetppc().
◆ SCIPgetNVarsLinear()
gets the number of variables in the linear constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18230 of file cons_linear.c.
Referenced by addAltLPConstraint(), addLinearConstraints(), addScenarioConsToProb(), checkLinearConssVarboundSOS1(), computeSymmetryGroup(), createAltLP(), extractLinearValues(), getLinearConsNVars(), getLinearConsVarsData(), presolveAddKKTLinearConss(), propIndicator(), readIndicators(), readNonlinearExprs(), readQCMatrix(), readQuadraticCoefs(), SCIP_DECL_CONSLOCK(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_PARAMCHGD(), SCIPcreateConsIndicatorLinCons(), SCIPmakeIndicatorFeasible(), SCIPmatrixCreate(), SCIPsetLinearConsIndicator(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), separatePerspective(), tightenVarsBoundsSOS1(), transferBendersCuts(), upgradeIndicatorSuperindicator(), upgradeLinearSuperindicator(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetVarsLinear()
gets the array of variables in the linear constraint; the user must not modify this array!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18253 of file cons_linear.c.
Referenced by addAltLPConstraint(), addLinearConstraints(), addScenarioConsToProb(), checkLinearConssVarboundSOS1(), computeSymmetryGroup(), createAltLP(), extractLinearValues(), getLinearConsVarsData(), presolveAddKKTLinearConss(), propIndicator(), readIndicators(), readNonlinearExprs(), readQCMatrix(), readQuadraticCoefs(), saveConsLinear(), SCIP_DECL_CONSLOCK(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_PARAMCHGD(), SCIPcreateConsIndicatorLinCons(), SCIPmakeIndicatorFeasible(), SCIPmatrixCreate(), SCIPsetLinearConsIndicator(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), separatePerspective(), tightenVarsBoundsSOS1(), transferBendersCuts(), upgradeIndicatorSuperindicator(), upgradeLinearSuperindicator(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetValsLinear()
gets the array of coefficient values in the linear constraint; the user must not modify this array!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18276 of file cons_linear.c.
Referenced by addAltLPConstraint(), addLinearConstraints(), addScenarioConsToProb(), checkLinearConssVarboundSOS1(), computeSymmetryGroup(), createAltLP(), extractLinearValues(), getLinearConsVarsData(), presolveAddKKTLinearConss(), propIndicator(), readIndicators(), readNonlinearExprs(), readQCMatrix(), readQuadraticCoefs(), saveConsLinear(), SCIP_DECL_CONSLOCK(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_PARAMCHGD(), SCIPgetConsVals(), SCIPmakeIndicatorFeasible(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), separatePerspective(), tightenVarsBoundsSOS1(), transferBendersCuts(), upgradeIndicatorSuperindicator(), upgradeLinearSuperindicator(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetActivityLinear()
gets the activity of the linear constraint in the given solution
- Note
- if the solution contains values at infinity, this method will return SCIP_INVALID in case the activity comprises positive and negative infinity contributions
- Parameters
-
scip SCIP data structure cons constraint data sol solution, or NULL to use current node's solution
Definition at line 18303 of file cons_linear.c.
Referenced by computeNogoodCut(), computeStandardFeasibilityCut(), computeStandardIntegerOptCut(), and computeStandardOptimalityCut().
◆ SCIPgetFeasibilityLinear()
gets the feasibility of the linear constraint in the given solution
- Parameters
-
scip SCIP data structure cons constraint data sol solution, or NULL to use current node's solution
Definition at line 18330 of file cons_linear.c.
◆ SCIPgetDualsolLinear()
gets the dual solution of the linear constraint in the current LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18357 of file cons_linear.c.
Referenced by ObjPricerVRP::pricing(), pricing(), SCIP_DECL_EVENTEXEC(), SCIP_DECL_PRICERREDCOST(), SCIPconsGetDualsol(), and SCIPgetDualSolVal().
◆ SCIPgetDualfarkasLinear()
gets the dual Farkas value of the linear constraint in the current infeasible LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18384 of file cons_linear.c.
Referenced by ObjPricerVRP::pricing(), pricing(), and SCIPconsGetDualfarkas().
◆ SCIPgetRowLinear()
returns the linear relaxation of the given linear constraint; may return NULL if no LP row was yet created; the user must not modify the row!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 18413 of file cons_linear.c.
Referenced by SCIPconsGetRow().
◆ SCIPupgradeConsLinear()
SCIP_RETCODE SCIPupgradeConsLinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_CONS ** | upgdcons | ||
) |
tries to automatically convert a linear constraint into a more specific and more specialized constraint
- Parameters
-
scip SCIP data structure cons source constraint to try to convert upgdcons pointer to store upgraded constraint, or NULL if not successful
Definition at line 18436 of file cons_linear.c.
Referenced by createAndAddProofcons().
◆ SCIPclassifyConstraintTypesLinear()
SCIP_RETCODE SCIPclassifyConstraintTypesLinear | ( | SCIP * | scip, |
SCIP_LINCONSSTATS * | linconsstats | ||
) |
performs linear constraint type classification as used for MIPLIB
iterates through all linear constraints and stores relevant statistics in the linear constraint statistics linconsstats
.
- Note
- only constraints are iterated that belong to the linear constraint handler. If the problem has been presolved already, constraints that were upgraded to more special types such as, e.g., varbound constraints, will not be shown correctly anymore. Similarly, if specialized constraints were created through the API, these are currently not present.
- Parameters
-
scip SCIP data structure linconsstats linear constraint type classification
Definition at line 15133 of file cons_linear.c.
Referenced by SCIP_DECL_DIALOGEXEC().
◆ SCIPcreateConsLinking()
SCIP_RETCODE SCIPcreateConsLinking | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | intvar, | ||
SCIP_VAR ** | binvars, | ||
int * | vals, | ||
int | nbinvars, | ||
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 | ||
) |
creates and captures a linking constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint intvar integer variable which should be linked binvars binary variables, or NULL vals coefficients of the binary variables nbinvars number of binary variables initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 3284 of file cons_linking.c.
References consdataCreate(), consdataCreateBinvars(), CONSHDLR_NAME, getHashmapKey(), HASHSIZE_BINVARSCONS, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPblkmem(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPdebugMsg, SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetStage(), SCIPhashmapCreate(), SCIPhashmapExists(), SCIPhashmapInsert(), SCIPisInfinity(), SCIPvarGetLbGlobal(), SCIPvarGetName(), and SCIPvarGetUbGlobal().
Referenced by consdataCollectLinkingCons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), and SCIPcreateConsBasicLinking().
◆ SCIPcreateConsBasicLinking()
SCIP_RETCODE SCIPcreateConsBasicLinking | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | intvar, | ||
SCIP_VAR ** | binvars, | ||
int * | vals, | ||
int | nbinvars | ||
) |
creates and captures a linking constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsLinking(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsLinking() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a linking constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsLinking(); all flags can be set via SCIPsetCons<Flagname>-methods in scip.h
- See also
- SCIPcreateConsLinking() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint intvar integer variable which should be linked binvars binary variables, or NULL vals coefficients of the binary variables nbinvars number of binary variables
Definition at line 3376 of file cons_linking.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsLinking(), and TRUE.
◆ SCIPexistsConsLinking()
checks if for the given integer variable a linking constraint exists
- Parameters
-
scip SCIP data structure intvar integer variable which should be linked
Definition at line 3395 of file cons_linking.c.
References CONSHDLR_NAME, getHashmapKey(), NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPhashmapExists().
Referenced by collectBinaryVars(), and consdataCollectLinkingCons().
◆ SCIPgetConsLinking()
returns the linking constraint belonging the given integer variable or NULL if it does not exist yet
returns the linking constraint belonging to the given integer variable or NULL if it does not exist yet
- Parameters
-
scip SCIP data structure intvar integer variable which should be linked
Definition at line 3413 of file cons_linking.c.
References CONSHDLR_NAME, getHashmapKey(), NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPhashmapGetImage().
Referenced by collectBinaryVars(), consdataCollectLinkingCons(), and consdataCreate().
◆ SCIPgetIntvarLinking()
returns the integer variable of the linking constraint
- Parameters
-
scip SCIP data structure cons linking constraint
Definition at line 3434 of file cons_linking.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by computeSymmetryGroup(), and SCIPmatrixCreate().
◆ SCIPgetBinvarsLinking()
SCIP_RETCODE SCIPgetBinvarsLinking | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR *** | binvars, | ||
int * | nbinvars | ||
) |
returns the binary variables of the linking constraint
- Parameters
-
scip SCIP data structure cons linking constraint binvars pointer to store the binary variables array pointer nbinvars pointer to store the number of returned binary variables
Definition at line 3455 of file cons_linking.c.
References consdataCreateBinvars(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by collectBinaryVars(), computeSymmetryGroup(), createCoverCutsTimepoint(), and SCIPmatrixCreate().
◆ SCIPgetNBinvarsLinking()
returns the number of binary variables of the linking constraint
- Parameters
-
scip SCIP data structure cons linking constraint
Definition at line 3499 of file cons_linking.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
◆ SCIPgetValsLinking()
returns the coefficients of the binary variables
- Parameters
-
scip SCIP data structure cons linking constraint
Definition at line 3520 of file cons_linking.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by collectBinaryVars(), computeSymmetryGroup(), createCoverCutsTimepoint(), and SCIPmatrixCreate().
◆ SCIPcreateConsLogicor()
SCIP_RETCODE SCIPcreateConsLogicor | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures a logic or constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 5165 of file cons_logicor.c.
References consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_EVENTTYPE_VARFIXED, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_PRESOLVING, SCIPcatchVarEvent(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicLogicor(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetStage(), and SCIPisTransformed().
Referenced by addSplitcons(), applyCliqueFixings(), BENDERS_CUTORACLE(), consdataLinearize(), createAndAddLinearCons(), createConflict(), createConflictCons(), createNormalizedLogicor(), extendToCover(), readCnf(), SCIP_DECL_CONFLICTEXEC(), SCIPcreateConsBasicLogicor(), SCIPincludeConshdlrLogicor(), SCIPreoptApplyGlbConss(), and upgradeCons().
◆ SCIPcreateConsBasicLogicor()
SCIP_RETCODE SCIPcreateConsBasicLogicor | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures a logicor constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsLogicor(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsLogicor() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries
Definition at line 5242 of file cons_logicor.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddCoefLogicor(), SCIPcreateConsLogicor(), and TRUE.
Referenced by addFixedVarsConss(), createProbQP(), createProbSimplified(), createProbSimplifiedTest(), and SCIPcreateConsLogicor().
◆ SCIPaddCoefLogicor()
SCIP_RETCODE SCIPaddCoefLogicor | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var | ||
) |
adds coefficient in logic or constraint
- Parameters
-
scip SCIP data structure cons logicor constraint var variable to add to the constraint
Definition at line 5259 of file cons_logicor.c.
References addCoef(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNVarsLogicor().
Referenced by addCoefTerm(), createConflictCons(), createProbQP(), createProbSimplified(), createProbSimplifiedTest(), SCIPaddCoefPseudoboolean(), and SCIPcreateConsBasicLogicor().
◆ SCIPgetNVarsLogicor()
gets number of variables in logic or constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5282 of file cons_logicor.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsLogicor().
Referenced by addLogicOrConstraints(), checkLogicor(), computeSymmetryGroup(), correctPresoldata(), createAltLP(), createPresoldata(), extractGates(), getLinearConsNVars(), getLinearConsVarsData(), presolveAddKKTLogicorConss(), SCIPaddCoefLogicor(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetVarsLogicor()
gets array of variables in logic or constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5303 of file cons_logicor.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDualsolLogicor().
Referenced by addLogicOrConstraints(), checkLogicor(), computeSymmetryGroup(), createAltLP(), extractGates(), getLinearConsVarsData(), presolveAddKKTLogicorConss(), saveConsLinear(), SCIPgetNVarsLogicor(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetDualsolLogicor()
gets the dual solution of the logic or constraint in the current LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5324 of file cons_logicor.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetDualfarkasLogicor(), and SCIProwGetDualsol().
Referenced by SCIPconsGetDualsol(), and SCIPgetVarsLogicor().
◆ SCIPgetDualfarkasLogicor()
gets the dual Farkas value of the logic or constraint in the current infeasible LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5348 of file cons_logicor.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetRowLogicor(), and SCIProwGetDualfarkas().
Referenced by SCIPconsGetDualfarkas(), and SCIPgetDualsolLogicor().
◆ SCIPgetRowLogicor()
returns the linear relaxation of the given logic or constraint; may return NULL if no LP row was yet created; the user must not modify the row!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5374 of file cons_logicor.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPconsGetRow(), and SCIPgetDualfarkasLogicor().
◆ SCIPincludeNonlinconsUpgrade()
SCIP_RETCODE SCIPincludeNonlinconsUpgrade | ( | SCIP * | scip, |
SCIP_DECL_NONLINCONSUPGD((*nonlinconsupgd)) | , | ||
SCIP_DECL_EXPRGRAPHNODEREFORM((*nodereform)) | , | ||
int | priority, | ||
SCIP_Bool | active, | ||
const char * | conshdlrname | ||
) |
includes a nonlinear constraint upgrade method into the nonlinear constraint handler
- Parameters
-
scip SCIP data structure priority priority of upgrading method active should the upgrading method by active by default? conshdlrname name of the constraint handler
Definition at line 9244 of file cons_nonlinear.c.
References active, SCIP_NlConsUpgrade::active, CONSHDLR_NAME, LinVarEventData::conshdlrdata, FALSE, NULL, SCIP_NlConsUpgrade::priority, SCIP_CALL, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPaddBoolParam(), SCIPallocBlockMemory, SCIPcalcMemGrowSize(), SCIPconshdlrGetData(), SCIPcreateConsNonlinear(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPreallocBlockMemoryArray, SCIPsnprintf(), and SCIPwarningMessage().
Referenced by SCIPincludeConshdlrAbspower(), SCIPincludeConshdlrAnd(), SCIPincludeConshdlrBivariate(), SCIPincludeConshdlrNonlinear(), and SCIPincludeConshdlrQuadratic().
◆ SCIPcreateConsNonlinear()
SCIP_RETCODE SCIPcreateConsNonlinear | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nexprtrees, | ||
SCIP_EXPRTREE ** | exprtrees, | ||
SCIP_Real * | nonlincoefs, | ||
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 | ||
) |
creates and captures a nonlinear constraint this variant takes expression trees as input
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear variables in the constraint linvars array with linear variables of constraint entries lincoefs array with coefficients of constraint linear entries nexprtrees number of expression trees for nonlinear part of constraint exprtrees expression trees for nonlinear part of constraint nonlincoefs coefficients for expression trees for nonlinear part, or NULL if all 1.0 lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9329 of file cons_nonlinear.c.
References addLinearCoef(), consdataCreateEmpty(), consdataEnsureLinearVarsSize(), consdataSetExprtrees(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicNonlinear(), SCIPdebugMsg, SCIPdebugPrintCons, SCIPerrorMessage, SCIPfindConshdlr(), SCIPisZero(), and TRUE.
Referenced by readConstraints(), readNonlinearExprs(), readObjective(), removeFixedVariables(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicNonlinear(), and SCIPincludeNonlinconsUpgrade().
◆ SCIPcreateConsBasicNonlinear()
SCIP_RETCODE SCIPcreateConsBasicNonlinear | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nexprtrees, | ||
SCIP_EXPRTREE ** | exprtrees, | ||
SCIP_Real * | nonlincoefs, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a nonlinear constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsNonlinear(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
this variant takes expression trees as input
- See also
- SCIPcreateConsNonlinear() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear variables in the constraint linvars array with linear variables of constraint entries lincoefs array with coefficients of constraint linear entries nexprtrees number of expression trees for nonlinear part of constraint exprtrees expression trees for nonlinear part of constraint nonlincoefs coefficients for expression trees for nonlinear part, or NULL if all 1.0 lhs left hand side of constraint rhs right hand side of constraint
Definition at line 9422 of file cons_nonlinear.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsNonlinear(), SCIPcreateConsNonlinear2(), and TRUE.
Referenced by SCIPcreateConsNonlinear(), and setupProblem().
◆ SCIPcreateConsNonlinear2()
SCIP_RETCODE SCIPcreateConsNonlinear2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
SCIP_EXPRGRAPHNODE * | exprgraphnode, | ||
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 | ||
) |
creates and captures a nonlinear constraint this variant takes a node of the expression graph as input and can only be used during presolving it is assumed that the nonlinear constraint will be added to the transformed problem short after creation the given exprgraphnode is captured in this method
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear variables in the constraint linvars array with linear variables of constraint entries lincoefs array with coefficients of constraint linear entries exprgraphnode expression graph node associated to nonlinear expression lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9452 of file cons_nonlinear.c.
References addLinearCoef(), consdataCreateEmpty(), consdataEnsureLinearVarsSize(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_EXPRCURV_UNKNOWN, SCIP_INVALID, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_STAGE_PRESOLVING, SCIPcreateCons(), SCIPcreateConsBasicNonlinear2(), SCIPdebugMsg, SCIPdebugPrintCons, SCIPerrorMessage, SCIPexprgraphCaptureNode(), SCIPfindConshdlr(), SCIPgetStage(), and SCIPisZero().
Referenced by reformMonomial(), reformNode2Var(), reformulate(), SCIP_DECL_EXPRGRAPHNODEREFORM(), SCIP_DECL_NONLINCONSUPGD(), SCIPcreateConsBasicNonlinear(), and SCIPcreateConsBasicNonlinear2().
◆ SCIPcreateConsBasicNonlinear2()
SCIP_RETCODE SCIPcreateConsBasicNonlinear2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
SCIP_EXPRGRAPHNODE * | exprgraphnode, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a nonlinear constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsNonlinear2(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
this variant takes a node of the expression graph as input and can only be used during presolving it is assumed that the nonlinear constraint will be added to the transformed problem short after creation the given exprgraphnode is captured in this method
- See also
- SCIPcreateConsNonlinear2() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a nonlinear constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsNonlinear(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
this variant takes a node of the expression graph as input and can only be used during presolving it is assumed that the nonlinear constraint will be added to the transformed problem short after creation the given exprgraphnode is captured in this method
- See also
- SCIPcreateConsNonlinear() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear variables in the constraint linvars array with linear variables of constraint entries lincoefs array with coefficients of constraint linear entries exprgraphnode expression graph node associated to nonlinear expression lhs left hand side of constraint rhs right hand side of constraint
Definition at line 9550 of file cons_nonlinear.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPaddLinearVarNonlinear(), SCIPcreateConsNonlinear2(), and TRUE.
Referenced by SCIPcreateConsNonlinear2().
◆ SCIPaddLinearVarNonlinear()
SCIP_RETCODE SCIPaddLinearVarNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
adds a linear variable with coefficient to a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint var variable coef coefficient of variable
Definition at line 9571 of file cons_nonlinear.c.
References addLinearCoef(), NULL, REALABS, SCIP_CALL, SCIP_OKAY, SCIPisInfinity(), and SCIPsetExprtreesNonlinear().
Referenced by SCIPcreateConsBasicNonlinear2().
◆ SCIPsetExprtreesNonlinear()
SCIP_RETCODE SCIPsetExprtreesNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
int | nexprtrees, | ||
SCIP_EXPRTREE ** | exprtrees, | ||
SCIP_Real * | coefs | ||
) |
sets the expression trees in a nonlinear constraint constraint must not be active yet
- Parameters
-
scip SCIP data structure cons constraint nexprtrees number of expression trees exprtrees new expression trees, or NULL if nexprtrees is 0 coefs coefficients of expression trees, or NULL if all 1.0
Definition at line 9591 of file cons_nonlinear.c.
References consdataSetExprtrees(), NULL, SCIP_CALL, SCIP_OKAY, SCIPaddExprtreesNonlinear(), SCIPconsGetData(), SCIPconsIsActive(), and TRUE.
Referenced by SCIPaddLinearVarNonlinear().
◆ SCIPaddExprtreesNonlinear()
SCIP_RETCODE SCIPaddExprtreesNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
int | nexprtrees, | ||
SCIP_EXPRTREE ** | exprtrees, | ||
SCIP_Real * | coefs | ||
) |
adds expression trees to a nonlinear constraint constraint must not be active yet
- Parameters
-
scip SCIP data structure cons constraint nexprtrees number of expression trees exprtrees new expression trees, or NULL if nexprtrees is 0 coefs coefficients of expression trees, or NULL if all 1.0
Definition at line 9613 of file cons_nonlinear.c.
References consdataAddExprtrees(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsIsActive(), SCIPgetNlRowNonlinear(), and TRUE.
Referenced by readNonlinearExprs(), and SCIPsetExprtreesNonlinear().
◆ SCIPgetNlRowNonlinear()
SCIP_RETCODE SCIPgetNlRowNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLROW ** | nlrow | ||
) |
gets the nonlinear constraint as a nonlinear row representation
- Parameters
-
scip SCIP data structure cons constraint nlrow pointer to store nonlinear row
Definition at line 9633 of file cons_nonlinear.c.
References createNlRow(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), and SCIPgetNLinearVarsNonlinear().
Referenced by SCIPaddExprtreesNonlinear().
◆ SCIPgetNLinearVarsNonlinear()
gets the number of variables in the linear term of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9658 of file cons_nonlinear.c.
References NULL, SCIPconsGetData(), and SCIPgetLinearVarsNonlinear().
Referenced by readNonlinearExprs(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPgetNlRowNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLinearVarsNonlinear()
gets the variables in the linear part of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9670 of file cons_nonlinear.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLinearCoefsNonlinear().
Referenced by readNonlinearExprs(), SCIP_DECL_NONLINCONSUPGD(), SCIPgetNLinearVarsNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetLinearCoefsNonlinear()
gets the coefficients in the linear part of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9682 of file cons_nonlinear.c.
References NULL, SCIPconsGetData(), and SCIPgetNExprtreesNonlinear().
Referenced by readNonlinearExprs(), SCIP_DECL_NONLINCONSUPGD(), SCIPgetLinearVarsNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetNExprtreesNonlinear()
gets the number of expression trees of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9694 of file cons_nonlinear.c.
References NULL, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_INITPRESOLVE, SCIPconsGetData(), SCIPgetExprtreesNonlinear(), and SCIPgetStage().
Referenced by SCIPgetLinearCoefsNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetExprtreesNonlinear()
SCIP_EXPRTREE** SCIPgetExprtreesNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets the expression trees of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9707 of file cons_nonlinear.c.
References NULL, SCIP_Real, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_INITPRESOLVE, SCIPconsGetData(), SCIPgetExprtreeCoefsNonlinear(), and SCIPgetStage().
Referenced by SCIPgetNExprtreesNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetExprtreeCoefsNonlinear()
gets the coefficients of the expression trees of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9720 of file cons_nonlinear.c.
References NULL, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_INITPRESOLVE, SCIPconsGetData(), SCIPgetExprgraphNodeNonlinear(), and SCIPgetStage().
Referenced by SCIPgetExprtreesNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetExprgraphNodeNonlinear()
SCIP_EXPRGRAPHNODE* SCIPgetExprgraphNodeNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets the expression graph node of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9733 of file cons_nonlinear.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsNonlinear().
Referenced by SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPgetExprtreeCoefsNonlinear(), and SCIPwriteGms().
◆ SCIPgetLhsNonlinear()
gets the left hand side of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9745 of file cons_nonlinear.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetRhsNonlinear().
Referenced by readNonlinearExprs(), SCIP_DECL_NONLINCONSUPGD(), SCIPgetExprgraphNodeNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPgetRhsNonlinear()
gets the right hand side of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9757 of file cons_nonlinear.c.
References NULL, SCIPcheckCurvatureNonlinear(), and SCIPconsGetData().
Referenced by readNonlinearExprs(), SCIP_DECL_NONLINCONSUPGD(), SCIPgetLhsNonlinear(), SCIPwriteGms(), and SCIPwritePip().
◆ SCIPcheckCurvatureNonlinear()
SCIP_RETCODE SCIPcheckCurvatureNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
check the function of a nonlinear constraint for convexity/concavity, if not done yet
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9769 of file cons_nonlinear.c.
References checkCurvature(), LinVarEventData::conshdlrdata, NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconshdlrGetData(), and SCIPgetCurvatureNonlinear().
Referenced by SCIPgetRhsNonlinear().
◆ SCIPgetCurvatureNonlinear()
SCIP_RETCODE SCIPgetCurvatureNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Bool | checkcurv, | ||
SCIP_EXPRCURV * | curvature | ||
) |
gets the curvature of the nonlinear function of a nonlinear constraint
The curvature is computed by summing up the curvature for each nonlinear summand. To get the curvature for single summands, use SCIPgetExprtreeCurvaturesNonlinear().
gets the curvature of the nonlinear function of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint checkcurv whether to check constraint curvature, if not checked before curvature pointer to store curvature of constraint
Definition at line 9791 of file cons_nonlinear.c.
References checkCurvature(), LinVarEventData::conshdlrdata, NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetData(), and SCIPgetExprtreeCurvaturesNonlinear().
Referenced by SCIPcheckCurvatureNonlinear().
◆ SCIPgetExprtreeCurvaturesNonlinear()
SCIP_RETCODE SCIPgetExprtreeCurvaturesNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Bool | checkcurv, | ||
SCIP_EXPRCURV ** | curvatures | ||
) |
gets the curvature of the expression trees (multiplied by their coefficient) of a nonlinear constraint
- Parameters
-
scip SCIP data structure cons constraint checkcurv whether to check constraint curvature, if not checked before curvatures buffer to store curvatures of exprtrees
Definition at line 9825 of file cons_nonlinear.c.
References checkCurvature(), LinVarEventData::conshdlrdata, NULL, SCIP_CALL, SCIP_OKAY, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_INITPRESOLVE, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetData(), SCIPgetStage(), and SCIPgetViolationNonlinear().
Referenced by SCIPgetCurvatureNonlinear().
◆ SCIPgetViolationNonlinear()
SCIP_RETCODE SCIPgetViolationNonlinear | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_Real * | violation | ||
) |
computes the violation of a nonlinear constraint by a solution
- Parameters
-
scip SCIP data structure cons constraint sol solution which violation to calculate, or NULL for LP solution violation pointer to store violation of constraint
Definition at line 9862 of file cons_nonlinear.c.
References computeViolation(), MAX, NULL, SCIP_Bool, SCIP_CALL, SCIP_ERROR, SCIP_INVALID, SCIP_OKAY, SCIP_STAGE_EXITPRESOLVE, SCIP_STAGE_INITPRESOLVE, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconsIsActive(), SCIPerrorMessage, SCIPgetLinvarMayDecreaseNonlinear(), SCIPgetStage(), and SCIPwarningMessage().
Referenced by SCIPgetExprtreeCurvaturesNonlinear().
◆ SCIPgetLinvarMayDecreaseNonlinear()
get index of a linear variable of a nonlinear constraint that may be decreased without making any other constraint infeasible, or -1 if none
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9905 of file cons_nonlinear.c.
References consdataFindUnlockedLinearVar(), NULL, SCIPconsGetData(), and SCIPgetLinvarMayIncreaseNonlinear().
Referenced by SCIPgetViolationNonlinear().
◆ SCIPgetLinvarMayIncreaseNonlinear()
get index of a linear variable of a nonlinear constraint that may be increased without making any other constraint infeasible, or -1 if none
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 9925 of file cons_nonlinear.c.
References consdataFindUnlockedLinearVar(), NULL, SCIPconsGetData(), and SCIPgetExprgraphNonlinear().
Referenced by SCIPgetLinvarMayDecreaseNonlinear().
◆ SCIPgetExprgraphNonlinear()
SCIP_EXPRGRAPH* SCIPgetExprgraphNonlinear | ( | SCIP * | scip, |
SCIP_CONSHDLR * | conshdlr | ||
) |
gets expression graph of nonlinear constraint handler
- Parameters
-
scip SCIP data structure conshdlr nonlinear constraint handler
Definition at line 9945 of file cons_nonlinear.c.
References LinVarEventData::conshdlrdata, NULL, SCIPcomputeHyperplaneThreePoints(), and SCIPconshdlrGetData().
Referenced by SCIP_DECL_NONLINCONSUPGD(), SCIPgetLinvarMayIncreaseNonlinear(), and SCIPwriteGms().
◆ SCIPcomputeHyperplaneThreePoints()
SCIP_RETCODE SCIPcomputeHyperplaneThreePoints | ( | SCIP * | scip, |
SCIP_Real | a1, | ||
SCIP_Real | a2, | ||
SCIP_Real | a3, | ||
SCIP_Real | b1, | ||
SCIP_Real | b2, | ||
SCIP_Real | b3, | ||
SCIP_Real | c1, | ||
SCIP_Real | c2, | ||
SCIP_Real | c3, | ||
SCIP_Real * | alpha, | ||
SCIP_Real * | beta, | ||
SCIP_Real * | gamma_, | ||
SCIP_Real * | delta | ||
) |
given three points, constructs coefficient of equation for hyperplane generated by these three points Three points a, b, and c are given. Computes coefficients alpha, beta, gamma, and delta, such that a, b, and c, satisfy alpha * x1 + beta * x2 + gamma * x3 = delta and gamma >= 0.0.
- Parameters
-
scip SCIP data structure a1 first coordinate of a a2 second coordinate of a a3 third coordinate of a b1 first coordinate of b b2 second coordinate of b b3 third coordinate of b c1 first coordinate of c c2 second coordinate of c c3 third coordinate of c alpha coefficient of first coordinate beta coefficient of second coordinate gamma_ coefficient of third coordinate delta constant right-hand side
Definition at line 9967 of file cons_nonlinear.c.
References NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPdebugMsg, SCIPisRelEQ(), and SCIPsolveLinearProb().
Referenced by addConcaveEstimatorBivariate(), generateEstimatingHyperplane(), and SCIPgetExprgraphNonlinear().
◆ SCIPcreateConsOr()
SCIP_RETCODE SCIPcreateConsOr | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | resvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures an or constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint resvar resultant variable of the operation nvars number of operator variables in the constraint vars array with operator variables of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 2092 of file cons_or.c.
References consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicOr(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by CREATE_CONSTRAINT(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicOr(), and SCIPincludeConshdlrOr().
◆ SCIPcreateConsBasicOr()
SCIP_RETCODE SCIPcreateConsBasicOr | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | resvar, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures an or constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsNonlinear(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsOr() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an or constraint in its most basic variant, i. e., with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint resvar resultant variable of the operation nvars number of operator variables in the constraint vars array with operator variables of constraint
Definition at line 2154 of file cons_or.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsOr(), SCIPgetNVarsOr(), and TRUE.
Referenced by SCIPcreateConsOr().
◆ SCIPgetNVarsOr()
gets number of variables in or constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 2170 of file cons_or.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsOr().
Referenced by computeSymmetryGroup(), SCIP_DECL_CONSCOPY(), and SCIPcreateConsBasicOr().
◆ SCIPgetVarsOr()
gets array of variables in or constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 2191 of file cons_or.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetResultantOr().
Referenced by computeSymmetryGroup(), SCIP_DECL_CONSCOPY(), and SCIPgetNVarsOr().
◆ SCIPgetResultantOr()
gets the resultant variable in or constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 2212 of file cons_or.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by computeSymmetryGroup(), SCIP_DECL_CONSCOPY(), and SCIPgetVarsOr().
◆ SCIPseparateCoversOrbisack()
SCIP_RETCODE SCIPseparateCoversOrbisack | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_VAR ** | vars1, | ||
SCIP_VAR ** | vars2, | ||
int | nrows, | ||
SCIP_Bool * | infeasible, | ||
int * | ngen | ||
) |
separate orbisack solutions
separate orbisack cover inequalities for a given solution
- Parameters
-
scip pointer to scip cons pointer to constraint for which cover inequality should be added sol solution to be separated vars1 variables of first columns vars2 variables of second columns nrows number of rows infeasible memory address to store whether we detected infeasibility ngen memory address to store number of generated cuts
Definition at line 1823 of file cons_orbisack.c.
References FALSE, NULL, SCIP_CALL, SCIP_DECL_CONSGETVARS(), SCIP_OKAY, SCIP_Real, SCIPaddRow(), SCIPaddVarToRow(), SCIPallocBufferArray, SCIPcacheRowExtensions(), SCIPconsGetHdlr(), SCIPcreateEmptyRowCons(), SCIPflushRowExtensions(), SCIPfreeBufferArray, SCIPgetSolVals(), SCIPinfinity(), SCIPisEfficacious(), SCIPprintRow(), SCIPreleaseRow(), and TRUE.
Referenced by SCIPcheckSolutionOrbisack(), and separateConstraints().
◆ SCIPcheckSolutionOrbisack()
SCIP_RETCODE SCIPcheckSolutionOrbisack | ( | SCIP * | scip, |
SCIP_SOL * | sol, | ||
SCIP_VAR ** | vars1, | ||
SCIP_VAR ** | vars2, | ||
int | nrows, | ||
SCIP_Bool | printreason, | ||
SCIP_Bool * | feasible | ||
) |
checks whether a given binary solution is feasible for the orbisack
checks given solution for feasibility
- Parameters
-
scip SCIP data structure sol solution to check for feasibility vars1 variables of first column vars2 variables of second column nrows number of rows printreason whether reason for infeasibility should be printed feasible memory address to store whether sol is feasible
Definition at line 1768 of file cons_orbisack.c.
References FALSE, NULL, SCIP_OKAY, SCIPgetSolVal(), SCIPinfoMessage(), SCIPisFeasIntegral(), SCIPseparateCoversOrbisack(), and TRUE.
Referenced by checkFullOrbitopeSolution(), SCIP_DECL_CONSCHECK(), SCIP_DECL_CONSENFOPS(), and SCIP_DECL_CONSPRINT().
◆ SCIPcreateConsOrbisack()
SCIP_RETCODE SCIPcreateConsOrbisack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR *const * | vars1, | ||
SCIP_VAR *const * | vars2, | ||
int | nrows, | ||
SCIP_Bool | ispporbisack, | ||
SCIP_Bool | isparttype, | ||
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 | ||
) |
creates and captures a orbisack constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint vars1 first column of matrix of variables on which the symmetry acts vars2 second column of matrix of variables on which the symmetry acts nrows number of rows in variable matrix ispporbisack whether the orbisack is a packing/partitioning orbisack isparttype whether the orbisack is a partitioning orbisack initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 2045 of file cons_orbisack.c.
References consdataCreate(), CONSHDLR_NAME, NULL, packingUpgrade(), SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_ORBITOPETYPE_PACKING, SCIP_ORBITOPETYPE_PARTITIONING, SCIP_PLUGINNOTFOUND, SCIPallocBufferArray, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicOrbisack(), SCIPcreateConsOrbitope(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, and TRUE.
Referenced by orbisackUpgrade(), SCIPcreateConsBasicOrbisack(), and SCIPincludeConshdlrOrbisack().
◆ SCIPcreateConsBasicOrbisack()
SCIP_RETCODE SCIPcreateConsBasicOrbisack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR ** | vars1, | ||
SCIP_VAR ** | vars2, | ||
int | nrows, | ||
SCIP_Bool | ispporbisack, | ||
SCIP_Bool | isparttype | ||
) |
creates and captures an orbisack constraint in its most basic variant
All constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h.
- See also
- SCIPcreateConsOrbisack() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an orbisack constraint in its most basic variant
All constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h.
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint vars1 first column of matrix of variables on which the symmetry acts vars2 second column of matrix of variables on which the symmetry acts nrows number of rows in constraint matrix ispporbisack whether the orbisack is a packing/partitioning orbisack isparttype whether the orbisack is a partitioning orbisack
Definition at line 2150 of file cons_orbisack.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsOrbisack(), and TRUE.
Referenced by SCIPcreateConsOrbisack().
◆ SCIPcreateConsOrbitope()
SCIP_RETCODE SCIPcreateConsOrbitope | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR *** | vars, | ||
SCIP_ORBITOPETYPE | orbitopetype, | ||
int | nspcons, | ||
int | nblocks, | ||
SCIP_Bool | resolveprop, | ||
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 | ||
) |
creates and captures a orbitope constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a orbitope constraint
- Precondition
- If packing/partitioning orbitopes are used, this constraint handler assumes that constraints which enforce the packing/partitioning constraints are contained in the problem. It does not implement, e.g., separation and propagation of set packing/partitioning constraints, since this would just copy large parts of the code of the setppc constraint handler.
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint vars matrix of variables on which the symmetry acts orbitopetype type of orbitope constraint nspcons number of set partitioning/packing constraints <=> p nblocks number of symmetric variable blocks <=> q resolveprop should propagation be resolved? initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 3161 of file cons_orbitope.c.
References consdataCreate(), CONSHDLR_NAME, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_ORBITOPETYPE_FULL, SCIP_ORBITOPETYPE_PACKING, SCIP_ORBITOPETYPE_PARTITIONING, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicOrbitope(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetSubscipDepth(), SCIPinfinity(), SCIPisEQ(), SCIPisInfinity(), SCIPisZero(), SCIPvarGetLbGlobal(), SCIPvarGetNegatedVar(), SCIPvarGetObj(), SCIPvarGetUbGlobal(), SCIPvarIsActive(), SCIPvarIsBinary(), SCIPvarIsNegated(), and strenghtenOrbitopeConstraint().
Referenced by detectOrbitopes(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicOrbitope(), SCIPcreateConsOrbisack(), and SCIPincludeConshdlrOrbitope().
◆ SCIPcreateConsBasicOrbitope()
SCIP_RETCODE SCIPcreateConsBasicOrbitope | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR *** | vars, | ||
SCIP_ORBITOPETYPE | orbitopetype, | ||
int | nspcons, | ||
int | nblocks, | ||
SCIP_Bool | resolveprop | ||
) |
creates and captures an orbitope constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsOrbitope() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures an orbitope constraint in its most basic variant, i. e., with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint vars matrix of variables on which the symmetry acts orbitopetype type of orbitope constraint nspcons number of set partitioning/packing constraints <=> p nblocks number of symmetric variable blocks <=> q resolveprop should propagation be resolved?
Definition at line 3279 of file cons_orbitope.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsOrbitope(), and TRUE.
Referenced by SCIPcreateConsOrbitope().
◆ SCIPcreateConsPseudobooleanWithConss()
SCIP_RETCODE SCIPcreateConsPseudobooleanWithConss | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_CONS * | lincons, | ||
SCIP_LINEARCONSTYPE | linconstype, | ||
SCIP_CONS ** | andconss, | ||
SCIP_Real * | andcoefs, | ||
int | nandconss, | ||
SCIP_VAR * | indvar, | ||
SCIP_Real | weight, | ||
SCIP_Bool | issoftcons, | ||
SCIP_VAR * | intvar, | ||
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 | ||
) |
creates and captures a pseudoboolean constraint, with given linear and and-constraints
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint lincons associated linear constraint linconstype linear constraint type of associated linear constraint andconss associated and-constraints andcoefs associated coefficients of and-constraints nandconss number of associated and-constraints indvar indicator variable if it's a soft constraint, or NULL weight weight of the soft constraint, if it is one issoftcons is this a soft constraint intvar an artificial variable which was added only for the objective function, if this variable is not NULL this constraint (without this integer variable) describes the objective function lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are seperated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 8896 of file cons_pseudoboolean.c.
References BMScopyMemoryArray, ConsAndData::cons, consdataCreate(), CONSHDLR_NAME, FALSE, inithashmapandtable(), ConsAndData::isoriginal, ConsAndData::istransformed, ConsAndData::newvars, ConsAndData::nnewvars, ConsAndData::noriguses, NULL, ConsAndData::nuses, ConsAndData::nvars, ConsAndData::origcons, SCIP_Bool, SCIP_CALL, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPallocBlockMemory, SCIPcalcMemGrowSize(), SCIPcaptureCons(), SCIPcaptureVar(), SCIPconsAddUpgradeLocks(), SCIPconshdlrGetData(), SCIPconsIsTransformed(), SCIPcreateCons(), SCIPcreateConsPseudoboolean(), SCIPduplicateBlockMemoryArray, SCIPensureBlockMemoryArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBlockMemory, SCIPfreeBlockMemoryArray, SCIPgetNVarsAnd(), SCIPgetResultantAnd(), SCIPgetVarsAnd(), SCIPhashmapExists(), SCIPhashmapInsert(), SCIPhashtableInsert(), SCIPhashtableRetrieve(), SCIPinfinity(), SCIPisInfinity(), SCIPsortPtr(), SCIPwarningMessage(), ConsAndData::snewvars, ConsAndData::svars, TRUE, and ConsAndData::vars.
Referenced by copyConsPseudoboolean(), and SCIPincludeConshdlrPseudoboolean().
◆ SCIPcreateConsPseudoboolean()
SCIP_RETCODE SCIPcreateConsPseudoboolean | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR ** | linvars, | ||
int | nlinvars, | ||
SCIP_Real * | linvals, | ||
SCIP_VAR *** | terms, | ||
int | nterms, | ||
int * | ntermvars, | ||
SCIP_Real * | termvals, | ||
SCIP_VAR * | indvar, | ||
SCIP_Real | weight, | ||
SCIP_Bool | issoftcons, | ||
SCIP_VAR * | intvar, | ||
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 | ||
) |
creates and captures a pseudoboolean constraint
- Note
- linear and nonlinear terms can be added using SCIPaddCoefPseudoboolean() and SCIPaddTermPseudoboolean(), respectively
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint linvars variables of the linear part, or NULL nlinvars number of variables of the linear part linvals coefficients of linear part, or NULL terms nonlinear terms of variables, or NULL nterms number of terms of variables of nonlinear term ntermvars number of variables in nonlinear terms, or NULL termvals coefficients of nonlinear parts, or NULL indvar indicator variable if it's a soft constraint, or NULL weight weight of the soft constraint, if it is one issoftcons is this a soft constraint intvar an artificial variable which was added only for the objective function, if this variable is not NULL this constraint (without this integer variable) describes the objective function lhs left hand side of constraint rhs right hand side of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9166 of file cons_pseudoboolean.c.
References consdataCreate(), CONSHDLR_NAME, createAndAddAnds(), createAndAddLinearCons(), FALSE, inithashmapandtable(), nterms, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALIDDATA, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIPallocBufferArray, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicPseudoboolean(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPfreeBufferArray, SCIPgetResultantAnd(), SCIPinfinity(), and SCIPisInfinity().
Referenced by readConstraints(), SCIPcreateConsBasicPseudoboolean(), SCIPcreateConsPseudobooleanWithConss(), and setObjective().
◆ SCIPcreateConsBasicPseudoboolean()
SCIP_RETCODE SCIPcreateConsBasicPseudoboolean | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR ** | linvars, | ||
int | nlinvars, | ||
SCIP_Real * | linvals, | ||
SCIP_VAR *** | terms, | ||
int | nterms, | ||
int * | ntermvars, | ||
SCIP_Real * | termvals, | ||
SCIP_VAR * | indvar, | ||
SCIP_Real | weight, | ||
SCIP_Bool | issoftcons, | ||
SCIP_VAR * | intvar, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a pseudoboolean constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsPseudoboolean() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a pseudoboolean constraint in its most basic variant, i. e., with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint linvars variables of the linear part, or NULL nlinvars number of variables of the linear part linvals coefficients of linear part, or NULL terms nonlinear terms of variables, or NULL nterms number of terms of variables of nonlinear term ntermvars number of variables in nonlinear terms, or NULL termvals coefficients of nonlinear parts, or NULL indvar indicator variable if it's a soft constraint, or NULL weight weight of the soft constraint, if it is one issoftcons is this a soft constraint intvar a artificial variable which was added only for the objective function, if this variable is not NULL this constraint (without this integer variable) describes the objective function lhs left hand side of constraint rhs right hand side of constraint
Definition at line 9313 of file cons_pseudoboolean.c.
References FALSE, nterms, SCIP_CALL, SCIP_OKAY, SCIPaddCoefPseudoboolean(), SCIPcreateConsPseudoboolean(), and TRUE.
Referenced by SCIPcreateConsPseudoboolean().
◆ SCIPaddCoefPseudoboolean()
SCIP_RETCODE SCIPaddCoefPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_VAR *const | var, | ||
SCIP_Real const | val | ||
) |
adds linear term pseudo boolean constraint (if it is not zero)
- Note
- you can only add a coefficient if the special type of linear constraint won't changed
adds a variable to the pseudo boolean constraint (if it is not zero)
- Note
- you can only add a coefficient if the special type of linear constraint won't changed
- Parameters
-
scip SCIP data structure cons constraint data var variable of constraint entry val coefficient of constraint entry
Definition at line 9348 of file cons_pseudoboolean.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIP_LINEARCONSTYPE_KNAPSACK, SCIP_LINEARCONSTYPE_LINEAR, SCIP_LINEARCONSTYPE_LOGICOR, SCIP_LINEARCONSTYPE_SETPPC, SCIP_Longint, SCIP_OKAY, SCIPABORT, SCIPaddCoefKnapsack(), SCIPaddCoefLinear(), SCIPaddCoefLogicor(), SCIPaddCoefSetppc(), SCIPaddTermPseudoboolean(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPisEQ(), SCIPisIntegral(), SCIPisPositive(), and SCIPisZero().
Referenced by SCIPcreateConsBasicPseudoboolean().
◆ SCIPaddTermPseudoboolean()
SCIP_RETCODE SCIPaddTermPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_VAR **const | vars, | ||
int const | nvars, | ||
SCIP_Real const | val | ||
) |
adds nonlinear term to pseudo boolean constraint (if it is not zero)
- Note
- you can only add a coefficient if the special type of linear constraint won't changed
adds nonlinear term to pseudo boolean constraint (if it is not zero)
- Note
- you can only add a coefficient if the special type of linear constraint won't changed
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint vars variables of the nonlinear term nvars number of variables of the nonlinear term val coefficient of constraint entry
Definition at line 9425 of file cons_pseudoboolean.c.
References addCoefTerm(), CONSHDLR_NAME, NULL, ConsAndData::nvars, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetIndVarPseudoboolean().
Referenced by SCIPaddCoefPseudoboolean().
◆ SCIPgetIndVarPseudoboolean()
gets indicator variable of pseudoboolean constraint, or NULL if there is no
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9450 of file cons_pseudoboolean.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetLinearConsPseudoboolean().
Referenced by SCIPaddTermPseudoboolean(), and writeOpbConstraints().
◆ SCIPgetLinearConsPseudoboolean()
gets linear constraint of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9474 of file cons_pseudoboolean.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetLinearConsTypePseudoboolean().
Referenced by SCIPgetIndVarPseudoboolean(), and writeOpbConstraints().
◆ SCIPgetLinearConsTypePseudoboolean()
SCIP_LINEARCONSTYPE SCIPgetLinearConsTypePseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons | ||
) |
gets type of linear constraint of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9498 of file cons_pseudoboolean.c.
References CONSHDLR_NAME, NULL, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNLinVarsWithoutAndPseudoboolean().
Referenced by SCIPgetLinearConsPseudoboolean().
◆ SCIPgetNLinVarsWithoutAndPseudoboolean()
gets number of linear variables without artificial terms variables of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint
Definition at line 9522 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetLinDatasWithoutAndPseudoboolean().
Referenced by SCIPgetLinearConsTypePseudoboolean(), and writeOpbConstraints().
◆ SCIPgetLinDatasWithoutAndPseudoboolean()
SCIP_RETCODE SCIPgetLinDatasWithoutAndPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_VAR **const | linvars, | ||
SCIP_Real *const | lincoefs, | ||
int *const | nlinvars | ||
) |
gets linear constraint of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint linvars array to store and-constraints lincoefs array to store and-coefficients nlinvars pointer to store the required array size for and-constraints, have to be initialized with size of given array
Definition at line 9548 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, getLinearConsNVars(), getLinearConsVarsData(), getLinVarsAndAndRess(), NULL, ConsAndData::nvars, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_Real, SCIPABORT, SCIPallocBufferArray, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPfreeBufferArray, SCIPgetAndDatasPseudoboolean(), and ConsAndData::vars.
Referenced by SCIPgetNLinVarsWithoutAndPseudoboolean(), and writeOpbConstraints().
◆ SCIPgetAndDatasPseudoboolean()
SCIP_RETCODE SCIPgetAndDatasPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_CONS **const | andconss, | ||
SCIP_Real *const | andcoefs, | ||
int *const | nandconss | ||
) |
gets and-constraints of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint andconss array to store and-constraints andcoefs array to store and-coefficients nandconss pointer to store the required array size for and-constraints, have to be initialized with size of given array
Definition at line 9608 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, NULL, SCIP_Bool, SCIP_INVALIDDATA, SCIP_OKAY, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetNAndsPseudoboolean(), and TRUE.
Referenced by SCIPgetLinDatasWithoutAndPseudoboolean(), and writeOpbConstraints().
◆ SCIPgetNAndsPseudoboolean()
gets number of and constraints of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9668 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, NULL, SCIPABORT, SCIPchgLhsPseudoboolean(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetAndDatasPseudoboolean(), and writeOpbConstraints().
◆ SCIPchgLhsPseudoboolean()
SCIP_RETCODE SCIPchgLhsPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_Real const | lhs | ||
) |
changes left hand side of pseudoboolean constraint
- Note
- you can only change the left hand side if the special type of linear constraint won't changed
changes left hand side of pseudoboolean constraint
- Note
- you can only change the left hand side if the special type of linear constraint won't changed
- Parameters
-
scip SCIP data structure cons constraint data lhs new left hand side
Definition at line 9700 of file cons_pseudoboolean.c.
References checkConsConsistency, chgLhs(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIP_LINEARCONSTYPE_KNAPSACK, SCIP_LINEARCONSTYPE_LINEAR, SCIP_LINEARCONSTYPE_LOGICOR, SCIP_LINEARCONSTYPE_SETPPC, SCIP_OKAY, SCIPchgRhsPseudoboolean(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetNAndsPseudoboolean().
◆ SCIPchgRhsPseudoboolean()
SCIP_RETCODE SCIPchgRhsPseudoboolean | ( | SCIP *const | scip, |
SCIP_CONS *const | cons, | ||
SCIP_Real const | rhs | ||
) |
changes right hand side of pseudoboolean constraint
- Note
- you can only change the right hand side if the special type of linear constraint won't changed
changes right hand side of pseudoboolean constraint
- Note
- you can only change the right hand side if the special type of linear constraint won't changed
- Parameters
-
scip SCIP data structure cons constraint data rhs new right hand side
Definition at line 9751 of file cons_pseudoboolean.c.
References checkConsConsistency, chgRhs(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_LINEARCONSTYPE_INVALIDCONS, SCIP_LINEARCONSTYPE_KNAPSACK, SCIP_LINEARCONSTYPE_LINEAR, SCIP_LINEARCONSTYPE_LOGICOR, SCIP_LINEARCONSTYPE_SETPPC, SCIP_OKAY, SCIP_Real, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetLhsPseudoboolean().
Referenced by SCIPchgLhsPseudoboolean().
◆ SCIPgetLhsPseudoboolean()
get left hand side of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint
Definition at line 9793 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetRhsPseudoboolean().
Referenced by SCIPchgRhsPseudoboolean(), and writeOpbConstraints().
◆ SCIPgetRhsPseudoboolean()
get right hand side of pseudoboolean constraint
- Parameters
-
scip SCIP data structure cons pseudoboolean constraint
Definition at line 9816 of file cons_pseudoboolean.c.
References checkConsConsistency, CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetLhsPseudoboolean(), and writeOpbConstraints().
◆ SCIPincludeQuadconsUpgrade()
SCIP_RETCODE SCIPincludeQuadconsUpgrade | ( | SCIP * | scip, |
SCIP_DECL_QUADCONSUPGD((*quadconsupgd)) | , | ||
int | priority, | ||
SCIP_Bool | active, | ||
const char * | conshdlrname | ||
) |
includes a quadratic constraint upgrade method into the quadratic constraint handler
includes a quadratic constraint update method into the quadratic constraint handler
- Parameters
-
scip SCIP data structure priority priority of upgrading method active should the upgrading method be active by default? conshdlrname name of the constraint handler
Definition at line 14184 of file cons_quadratic.c.
References active, SCIP_QuadConsUpgrade::active, CONSHDLR_NAME, conshdlrdataHasUpgrade(), FALSE, NULL, SCIP_QuadConsUpgrade::priority, SCIP_CALL, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPaddBoolParam(), SCIPallocBlockMemory, SCIPcalcMemGrowSize(), SCIPconshdlrGetData(), SCIPcreateConsQuadratic(), SCIPerrorMessage, SCIPfindConshdlr(), SCIPreallocBlockMemoryArray, and SCIPsnprintf().
Referenced by SCIPincludeConshdlrAbspower(), SCIPincludeConshdlrBivariate(), SCIPincludeConshdlrBounddisjunction(), SCIPincludeConshdlrQuadratic(), and SCIPincludeConshdlrSOC().
◆ SCIPcreateConsQuadratic()
SCIP_RETCODE SCIPcreateConsQuadratic | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nquadterms, | ||
SCIP_VAR ** | quadvars1, | ||
SCIP_VAR ** | quadvars2, | ||
SCIP_Real * | quadcoefs, | ||
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 | ||
) |
Creates and captures a quadratic constraint.
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m a_j y_j z_j \leq u, \]
where \(x_i = y_j = z_k\) is possible.
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear terms (n) linvars array with variables in linear part (x_i) lincoefs array with coefficients of variables in linear part (b_i) nquadterms number of quadratic terms (m) quadvars1 array with first variables in quadratic terms (y_j) quadvars2 array with second variables in quadratic terms (z_j) quadcoefs array with coefficients of quadratic terms (a_j) lhs left hand side of quadratic equation (ell) rhs right hand side of quadratic equation (u) initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'.
Definition at line 14260 of file cons_quadratic.c.
References addBilinearTerm(), addLinearCoef(), addQuadVarTerm(), consdataCreateEmpty(), consdataEnsureBilinSize(), consdataEnsureLinearVarsSize(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_Real, SCIPblkmem(), SCIPcreateCons(), SCIPcreateConsBasicQuadratic(), SCIPdebugMsg, SCIPdebugPrintCons, SCIPerrorMessage, SCIPfindConshdlr(), SCIPhashmapCreate(), SCIPhashmapExists(), SCIPhashmapFree(), SCIPhashmapGetImage(), SCIPhashmapInsert(), and SCIPisZero().
Referenced by createQuadraticCons(), readConstraints(), readObjective(), readQCMatrix(), readQMatrix(), readQuadraticCoefs(), SCIP_DECL_CONSPARSE(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPcreateConsBasicQuadratic(), SCIPcreateConsIndicator(), SCIPcreateConsIndicatorLinCons(), and SCIPincludeQuadconsUpgrade().
◆ SCIPcreateConsBasicQuadratic()
SCIP_RETCODE SCIPcreateConsBasicQuadratic | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nquadterms, | ||
SCIP_VAR ** | quadvars1, | ||
SCIP_VAR ** | quadvars2, | ||
SCIP_Real * | quadcoefs, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a quadratic constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m a_j y_jz_j \leq u, \]
where \(x_i = y_j = z_k\) is possible.
- See also
- SCIPcreateConsQuadratic() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a quadratic constraint with all its flags set to their default values.
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m a_j y_j z_j \leq u, \]
where \(x_i = y_j = z_k\) is possible.
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear terms (n) linvars array with variables in linear part (x_i) lincoefs array with coefficients of variables in linear part (b_i) nquadterms number of quadratic terms (m) quadvars1 array with first variables in quadratic terms (y_j) quadvars2 array with second variables in quadratic terms (z_j) quadcoefs array with coefficients of quadratic terms (a_j) lhs left hand side of quadratic equation (ell) rhs right hand side of quadratic equation (u)
Definition at line 14442 of file cons_quadratic.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsQuadratic(), SCIPcreateConsQuadratic2(), and TRUE.
Referenced by createProbQP(), SCIPcreateConsQuadratic(), SCIPverifyCircularPatternNLP(), setupProblem(), and solvePricingMINLP().
◆ SCIPcreateConsQuadratic2()
SCIP_RETCODE SCIPcreateConsQuadratic2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nquadvarterms, | ||
SCIP_QUADVARTERM * | quadvarterms, | ||
int | nbilinterms, | ||
SCIP_BILINTERM * | bilinterms, | ||
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 | ||
) |
creates and captures a quadratic constraint.
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m (a_j y_j^2 + b_j y_j) + \sum_{k=1}^p c_k v_k w_k \leq u. \]
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
Creates and captures a quadratic constraint.
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m (a_j y_j^2 + b_j y_j) + \sum_{k=1}^p c_k v_k w_k \leq u. \]
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear terms (n) linvars array with variables in linear part (x_i) lincoefs array with coefficients of variables in linear part (b_i) nquadvarterms number of quadratic terms (m) quadvarterms quadratic variable terms nbilinterms number of bilinear terms (p) bilinterms bilinear terms lhs constraint left hand side (ell) rhs constraint right hand side (u) initial should the LP relaxation of constraint be in the initial LP? separate should the constraint be separated during LP processing? enforce should the constraint be enforced during node processing? check should the constraint be checked for feasibility? propagate should the constraint be propagated during node processing? local is constraint only valid locally? modifiable is constraint modifiable (subject to column generation)? dynamic is constraint dynamic? removable should the constraint be removed from the LP due to aging or cleanup?
Definition at line 14473 of file cons_quadratic.c.
References consdataCreate(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicQuadratic2(), SCIPerrorMessage, SCIPfindConshdlr(), and TRUE.
Referenced by presolveDisaggregate(), presolveRemoveFixedVariables(), SCIP_DECL_CONSCOPY(), SCIP_DECL_QUADCONSUPGD(), SCIPcreateConsBasicQuadratic(), and SCIPcreateConsBasicQuadratic2().
◆ SCIPcreateConsBasicQuadratic2()
SCIP_RETCODE SCIPcreateConsBasicQuadratic2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nlinvars, | ||
SCIP_VAR ** | linvars, | ||
SCIP_Real * | lincoefs, | ||
int | nquadvarterms, | ||
SCIP_QUADVARTERM * | quadvarterms, | ||
int | nbilinterms, | ||
SCIP_BILINTERM * | bilinterms, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a quadratic constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m (a_j y_j^2 + b_j y_j) + \sum_{k=1}^p c_kv_kw_k \leq u. \]
- See also
- SCIPcreateConsQuadratic2() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a quadratic constraint in its most basic version, i.e., all constraint flags are set to their default values.
The constraint should be given in the form
\[ \ell \leq \sum_{i=1}^n b_i x_i + \sum_{j=1}^m (a_j y_j^2 + b_j y_j) + \sum_{k=1}^p c_k v_k w_k \leq u. \]
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nlinvars number of linear terms (n) linvars array with variables in linear part (x_i) lincoefs array with coefficients of variables in linear part (b_i) nquadvarterms number of quadratic terms (m) quadvarterms quadratic variable terms nbilinterms number of bilinear terms (p) bilinterms bilinear terms lhs constraint left hand side (ell) rhs constraint right hand side (u)
Definition at line 14535 of file cons_quadratic.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPaddConstantQuadratic(), SCIPcreateConsQuadratic2(), and TRUE.
Referenced by SCIPcreateConsQuadratic2().
◆ SCIPaddConstantQuadratic()
Adds a constant to the constraint function, that is, subtracts a constant from both sides
- Parameters
-
scip SCIP data structure cons constraint constant constant to subtract from both sides
Definition at line 14559 of file cons_quadratic.c.
References NULL, REALABS, SCIP_STAGE_SOLVING, SCIPABORT, SCIPaddLinearVarQuadratic(), SCIPconsGetData(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetStage(), SCIPisEQ(), and SCIPisInfinity().
Referenced by SCIP_DECL_CONSPARSE(), SCIP_DECL_NONLINCONSUPGD(), and SCIPcreateConsBasicQuadratic2().
◆ SCIPaddLinearVarQuadratic()
SCIP_RETCODE SCIPaddLinearVarQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
Adds a linear variable with coefficient to a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint var variable coef coefficient of variable
Definition at line 14595 of file cons_quadratic.c.
References addLinearCoef(), NULL, REALABS, SCIP_CALL, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_SOLVING, SCIPaddQuadVarQuadratic(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetStage(), and SCIPisInfinity().
Referenced by createProbQP(), presolveDisaggregate(), readObjective(), SCIP_DECL_CONSPARSE(), SCIP_DECL_QUADCONSUPGD(), SCIPaddConstantQuadratic(), and setupProblem().
◆ SCIPaddQuadVarQuadratic()
SCIP_RETCODE SCIPaddQuadVarQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | lincoef, | ||
SCIP_Real | sqrcoef | ||
) |
Adds a quadratic variable with linear and square coefficient to a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint var variable lincoef linear coefficient of variable sqrcoef square coefficient of variable
Definition at line 14620 of file cons_quadratic.c.
References addQuadVarTerm(), NULL, REALABS, SCIP_CALL, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_SOLVING, SCIPaddQuadVarLinearCoefQuadratic(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetStage(), and SCIPisInfinity().
Referenced by presolveDisaggregate(), SCIP_DECL_CONSPARSE(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), and SCIPaddLinearVarQuadratic().
◆ SCIPaddQuadVarLinearCoefQuadratic()
SCIP_RETCODE SCIPaddQuadVarLinearCoefQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
Adds a linear coefficient for a quadratic variable.
Variable will be added with square coefficient 0.0 if not existing yet.
- Parameters
-
scip SCIP data structure cons constraint var variable coef value to add to linear coefficient of variable
Definition at line 14650 of file cons_quadratic.c.
References addQuadVarTerm(), consdataFindQuadVarTerm(), FALSE, NULL, REALABS, SCIP_CALL, SCIP_INVALID, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_SOLVING, SCIPaddSquareCoefQuadratic(), SCIPconsGetData(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetStage(), SCIPintervalSetEmpty(), SCIPisInfinity(), and SCIPisZero().
Referenced by presolveDisaggregate(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPaddQuadVarQuadratic(), and setupProblem().
◆ SCIPaddSquareCoefQuadratic()
SCIP_RETCODE SCIPaddSquareCoefQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
Adds a square coefficient for a quadratic variable.
Variable will be added with linear coefficient 0.0 if not existing yet.
- Parameters
-
scip SCIP data structure cons constraint var variable coef value to add to square coefficient of variable
Definition at line 14703 of file cons_quadratic.c.
References addQuadVarTerm(), consdataFindQuadVarTerm(), FALSE, NULL, REALABS, SCIP_CALL, SCIP_INVALID, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_SOLVING, SCIPaddBilinTermQuadratic(), SCIPconsGetData(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetStage(), SCIPintervalSetEmpty(), SCIPisInfinity(), and SCIPisZero().
Referenced by SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPaddBilinTermQuadratic(), SCIPaddQuadVarLinearCoefQuadratic(), and setupProblem().
◆ SCIPaddBilinTermQuadratic()
SCIP_RETCODE SCIPaddBilinTermQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var1, | ||
SCIP_VAR * | var2, | ||
SCIP_Real | coef | ||
) |
Adds a bilinear term to a quadratic constraint.
Variables will be added with linear and square coefficient 0.0 if not existing yet. If variables are equal, only the square coefficient of the variable is updated.
- Parameters
-
scip SCIP data structure cons constraint var1 first variable var2 second variable coef coefficient of bilinear term
Definition at line 14760 of file cons_quadratic.c.
References addBilinearTerm(), addQuadVarTerm(), consdataFindQuadVarTerm(), consdataSortQuadVarTerms(), NULL, REALABS, SCIP_CALL, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_STAGE_SOLVING, SCIPaddSquareCoefQuadratic(), SCIPconsGetData(), SCIPconsIsEnabled(), SCIPerrorMessage, SCIPgetNlRowQuadratic(), SCIPgetStage(), and SCIPisInfinity().
Referenced by createProbQP(), presolveDisaggregate(), readQuadraticCoefs(), SCIP_DECL_CONSPARSE(), SCIP_DECL_NONLINCONSUPGD(), SCIP_DECL_QUADCONSUPGD(), SCIPaddSquareCoefQuadratic(), SCIPchgBilinCoefQuadratic(), and setupProblem().
◆ SCIPgetNlRowQuadratic()
SCIP_RETCODE SCIPgetNlRowQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLROW ** | nlrow | ||
) |
Gets the quadratic constraint as a nonlinear row representation.
- Parameters
-
scip SCIP data structure cons constraint nlrow pointer to store nonlinear row
Definition at line 14826 of file cons_quadratic.c.
References createNlRow(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), and SCIPgetNLinearVarsQuadratic().
Referenced by createCoveringProblem(), and SCIPaddBilinTermQuadratic().
◆ SCIPgetNLinearVarsQuadratic()
Gets the number of variables in the linear part of a quadratic constraint.
Gets the number of variables in the linear term of a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14851 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPgetLinearVarsQuadratic().
Referenced by checkConsQuadraticProblem(), SCIP_DECL_QUADCONSUPGD(), SCIPgetNlRowQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetLinearVarsQuadratic()
Gets the variables in the linear part of a quadratic constraint. Length is given by SCIPgetNLinearVarsQuadratic.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14865 of file cons_quadratic.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetCoefsLinearVarsQuadratic().
Referenced by checkConsQuadraticProblem(), SCIP_DECL_QUADCONSUPGD(), SCIPgetNLinearVarsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetCoefsLinearVarsQuadratic()
Gets the coefficients in the linear part of a quadratic constraint. Length is given by SCIPgetNLinearVarsQuadratic.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14879 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPgetNQuadVarTermsQuadratic().
Referenced by checkConsQuadraticProblem(), SCIP_DECL_QUADCONSUPGD(), SCIPgetLinearVarsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetNQuadVarTermsQuadratic()
Gets the number of quadratic variable terms of a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14892 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPgetQuadVarTermsQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_QUADCONSUPGD(), SCIPgetCoefsLinearVarsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetQuadVarTermsQuadratic()
SCIP_QUADVARTERM* SCIPgetQuadVarTermsQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
Gets the quadratic variable terms of a quadratic constraint. Length is given by SCIPgetNQuadVarTermsQuadratic.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14906 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPsortQuadVarTermsQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_QUADCONSUPGD(), SCIPgetNQuadVarTermsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPsortQuadVarTermsQuadratic()
SCIP_RETCODE SCIPsortQuadVarTermsQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
Ensures that quadratic variable terms are sorted.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14918 of file cons_quadratic.c.
References consdataSortQuadVarTerms(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), and SCIPfindQuadVarTermQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_QUADCONSUPGD(), and SCIPgetQuadVarTermsQuadratic().
◆ SCIPfindQuadVarTermQuadratic()
SCIP_RETCODE SCIPfindQuadVarTermQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
int * | pos | ||
) |
Finds the position of a quadratic variable term for a given variable.
- Note
- If the quadratic variable terms have not been sorted before, then a search may reorder the current order of the terms.
- Parameters
-
scip SCIP data structure cons constraint var variable to search for pos buffer to store position of quadvarterm for var, or -1 if not found
Definition at line 14935 of file cons_quadratic.c.
References consdataFindQuadVarTerm(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), and SCIPgetNBilinTermsQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_CONSPARSE(), SCIP_DECL_QUADCONSUPGD(), and SCIPsortQuadVarTermsQuadratic().
◆ SCIPgetNBilinTermsQuadratic()
Gets the number of bilinear terms of a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14953 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPgetBilinTermsQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_QUADCONSUPGD(), SCIPfindQuadVarTermQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetBilinTermsQuadratic()
SCIP_BILINTERM* SCIPgetBilinTermsQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
Gets the bilinear terms of a quadratic constraint. Length is given by SCIPgetNBilinTermQuadratic.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14967 of file cons_quadratic.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsQuadratic().
Referenced by readNonlinearExprs(), SCIP_DECL_QUADCONSUPGD(), SCIPgetNBilinTermsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetLhsQuadratic()
Gets the left hand side of a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14979 of file cons_quadratic.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetRhsQuadratic().
Referenced by checkConsnames(), checkConsQuadraticProblem(), createCoveringProblem(), SCIP_DECL_QUADCONSUPGD(), SCIPgetBilinTermsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetRhsQuadratic()
Gets the right hand side of a quadratic constraint.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 14991 of file cons_quadratic.c.
References NULL, SCIPconsGetData(), and SCIPgetLinvarMayDecreaseQuadratic().
Referenced by checkConsnames(), checkConsQuadraticProblem(), createCoveringProblem(), SCIP_DECL_QUADCONSUPGD(), SCIPgetLhsQuadratic(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), and SCIPwritePip().
◆ SCIPgetLinvarMayDecreaseQuadratic()
get index of a variable in linvars that may be decreased without making any other constraint infeasible, or -1 if none
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15003 of file cons_quadratic.c.
References consdataFindUnlockedLinearVar(), NULL, SCIPconsGetData(), and SCIPgetLinvarMayIncreaseQuadratic().
Referenced by checkConsQuadraticProblem(), and SCIPgetRhsQuadratic().
◆ SCIPgetLinvarMayIncreaseQuadratic()
get index of a variable in linvars that may be increased without making any other constraint infeasible, or -1 if none
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15022 of file cons_quadratic.c.
References consdataFindUnlockedLinearVar(), NULL, SCIPcheckCurvatureQuadratic(), and SCIPconsGetData().
Referenced by checkConsQuadraticProblem(), and SCIPgetLinvarMayDecreaseQuadratic().
◆ SCIPcheckCurvatureQuadratic()
SCIP_RETCODE SCIPcheckCurvatureQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
Check the quadratic function of a quadratic constraint for its semi-definiteness, if not done yet.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15041 of file cons_quadratic.c.
References checkCurvature(), NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPisConvexQuadratic(), and TRUE.
Referenced by SCIP_DECL_QUADCONSUPGD(), and SCIPgetLinvarMayIncreaseQuadratic().
◆ SCIPisConvexQuadratic()
Indicates whether the quadratic function of a quadratic constraint is (known to be) convex.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15054 of file cons_quadratic.c.
References checkCurvatureEasy(), FALSE, NULL, SCIP_Bool, SCIPconsGetData(), and SCIPisConcaveQuadratic().
Referenced by createCoveringProblem(), SCIP_DECL_QUADCONSUPGD(), and SCIPcheckCurvatureQuadratic().
◆ SCIPisConcaveQuadratic()
Indicates whether the quadratic function of a quadratic constraint is (known to be) concave.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15071 of file cons_quadratic.c.
References checkCurvatureEasy(), FALSE, NULL, SCIP_Bool, SCIPconsGetData(), and SCIPgetViolationQuadratic().
Referenced by createCoveringProblem(), SCIP_DECL_QUADCONSUPGD(), and SCIPisConvexQuadratic().
◆ SCIPgetViolationQuadratic()
SCIP_RETCODE SCIPgetViolationQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_Real * | violation | ||
) |
Gets the violation of a constraint by a solution.
Computes the violation of a constraint by a solution
- Parameters
-
scip SCIP data structure cons constraint sol solution which violation to calculate, or NULL for LP solution violation pointer to store violation of constraint
Definition at line 15088 of file cons_quadratic.c.
References computeViolation(), MAX, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), and SCIPisLinearLocalQuadratic().
Referenced by SCIPisConcaveQuadratic().
◆ SCIPisLinearLocalQuadratic()
Indicates whether the quadratic constraint is local w.r.t. the current local bounds.
That is, checks whether each variable with a square term is fixed and for each bilinear term at least one variable is fixed.
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 15117 of file cons_quadratic.c.
References FALSE, NULL, SCIPaddToNlpiProblemQuadratic(), SCIPconsGetData(), SCIPisRelEQ(), SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), and TRUE.
Referenced by SCIPgetViolationQuadratic().
◆ SCIPaddToNlpiProblemQuadratic()
SCIP_RETCODE SCIPaddToNlpiProblemQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLPI * | nlpi, | ||
SCIP_NLPIPROBLEM * | nlpiprob, | ||
SCIP_HASHMAP * | scipvar2nlpivar, | ||
SCIP_Bool | names | ||
) |
Adds the constraint to an NLPI problem.
- Parameters
-
scip SCIP data structure cons constraint nlpi interface to NLP solver nlpiprob NLPI problem where to add constraint scipvar2nlpivar mapping from SCIP variables to variable indices in NLPI names whether to pass constraint names to NLPI
Definition at line 15163 of file cons_quadratic.c.
References SCIP_QuadElement::coef, SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, MAX, MIN, NULL, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPchgLhsQuadratic(), SCIPconsGetData(), SCIPconsGetName(), SCIPfreeBufferArrayNull, SCIPhashmapExists(), SCIPhashmapGetImage(), and SCIPnlpiAddConstraints().
Referenced by SCIPisLinearLocalQuadratic().
◆ SCIPchgLhsQuadratic()
SCIP_RETCODE SCIPchgLhsQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Real | lhs | ||
) |
sets the left hand side of a quadratic constraint
- Note
- This method may only be called during problem creation stage for an original constraint.
- Parameters
-
scip SCIP data structure cons constraint data lhs new left hand side
Definition at line 15298 of file cons_quadratic.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPchgRhsQuadratic(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetStage(), SCIPinfinity(), SCIPisInfinity(), and SCIPisLE().
Referenced by SCIPaddToNlpiProblemQuadratic().
◆ SCIPchgRhsQuadratic()
SCIP_RETCODE SCIPchgRhsQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_Real | rhs | ||
) |
sets the right hand side of a quadratic constraint
- Note
- This method may only be called during problem creation stage for an original constraint.
- Parameters
-
scip SCIP data structure cons constraint data rhs new right hand side
Definition at line 15343 of file cons_quadratic.c.
References CONSHDLR_NAME, NULL, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetFeasibilityQuadratic(), SCIPgetStage(), SCIPinfinity(), SCIPisInfinity(), and SCIPisLE().
Referenced by SCIPchgLhsQuadratic().
◆ SCIPgetFeasibilityQuadratic()
SCIP_RETCODE SCIPgetFeasibilityQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_Real * | feasibility | ||
) |
gets the feasibility of the quadratic constraint in the given solution
- Parameters
-
scip SCIP data structure cons constraint data sol solution, or NULL to use current node's solution feasibility pointer to store the feasibility
Definition at line 15385 of file cons_quadratic.c.
References computeViolation(), CONSHDLR_NAME, MIN, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetActivityQuadratic(), SCIPinfinity(), and SCIPisInfinity().
Referenced by SCIPchgRhsQuadratic().
◆ SCIPgetActivityQuadratic()
SCIP_RETCODE SCIPgetActivityQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_SOL * | sol, | ||
SCIP_Real * | activity | ||
) |
gets the activity of the quadratic constraint in the given solution
- Parameters
-
scip SCIP data structure cons constraint data sol solution, or NULL to use current node's solution activity pointer to store the activity
Definition at line 15427 of file cons_quadratic.c.
References computeViolation(), CONSHDLR_NAME, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPABORT, SCIPchgLinearCoefQuadratic(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetFeasibilityQuadratic().
◆ SCIPchgLinearCoefQuadratic()
SCIP_RETCODE SCIPchgLinearCoefQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
changes the linear coefficient value for a given quadratic variable in a quadratic constraint data; if not available, it adds it
- Note
- this is only allowed for original constraints and variables in problem creation stage
- Parameters
-
scip SCIP data structure cons constraint data var quadratic variable coef new coefficient
Definition at line 15462 of file cons_quadratic.c.
References addLinearCoef(), chgLinearCoefPos(), CONSHDLR_NAME, delLinearCoefPos(), FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALID, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPchgSquareCoefQuadratic(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetStage(), SCIPintervalSetEmpty(), SCIPisZero(), SCIPvarIsOriginal(), and TRUE.
Referenced by SCIPgetActivityQuadratic().
◆ SCIPchgSquareCoefQuadratic()
SCIP_RETCODE SCIPchgSquareCoefQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | coef | ||
) |
changes the square coefficient value for a given quadratic variable in a quadratic constraint data; if not available, it adds it
- Note
- this is only allowed for original constraints and variables in problem creation stage
- Parameters
-
scip SCIP data structure cons constraint data var quadratic variable coef new coefficient
Definition at line 15555 of file cons_quadratic.c.
References addQuadVarTerm(), CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_Bool, SCIP_CALL, SCIP_INVALID, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPchgBilinCoefQuadratic(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetStage(), SCIPintervalSetEmpty(), SCIPisInfinity(), SCIPisZero(), SCIPvarIsOriginal(), and TRUE.
Referenced by SCIPchgBilinCoefQuadratic(), and SCIPchgLinearCoefQuadratic().
◆ SCIPchgBilinCoefQuadratic()
SCIP_RETCODE SCIPchgBilinCoefQuadratic | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var1, | ||
SCIP_VAR * | var2, | ||
SCIP_Real | coef | ||
) |
changes the bilinear coefficient value for a given quadratic variable in a quadratic constraint data; if not available, it adds it
- Note
- this is only allowed for original constraints and variables in problem creation stage
- Parameters
-
scip SCIP data structure cons constraint var1 first variable var2 second variable coef coefficient of bilinear term
Definition at line 15624 of file cons_quadratic.c.
References CONSHDLR_NAME, FALSE, NULL, REALABS, SCIP_Bool, SCIP_CALL, SCIP_INVALID, SCIP_INVALIDDATA, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIPaddBilinTermQuadratic(), SCIPchgSquareCoefQuadratic(), SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPconsIsOriginal(), SCIPerrorMessage, SCIPgetNAllBilinearTermsQuadratic(), SCIPgetStage(), SCIPintervalSetEmpty(), SCIPisInfinity(), SCIPisZero(), SCIPvarIsOriginal(), and TRUE.
Referenced by SCIPchgSquareCoefQuadratic().
◆ SCIPgetNAllBilinearTermsQuadratic()
int SCIPgetNAllBilinearTermsQuadratic | ( | SCIP * | scip | ) |
returns the total number of bilinear terms that are contained in all quadratic constraints
- Parameters
-
scip SCIP data structure
Definition at line 15703 of file cons_quadratic.c.
References CONSHDLR_NAME, NULL, SCIPconshdlrGetData(), SCIPfindConshdlr(), and SCIPgetAllBilinearTermsQuadratic().
Referenced by SCIPchgBilinCoefQuadratic().
◆ SCIPgetAllBilinearTermsQuadratic()
SCIP_RETCODE SCIPgetAllBilinearTermsQuadratic | ( | SCIP * | scip, |
SCIP_VAR **RESTRICT | x, | ||
SCIP_VAR **RESTRICT | y, | ||
int *RESTRICT | nbilinterms, | ||
int *RESTRICT | nunderests, | ||
int *RESTRICT | noverests, | ||
SCIP_Real * | maxnonconvexity | ||
) |
returns all bilinear terms that are contained in all quadratic constraints
- Parameters
-
scip SCIP data structure x array to store first variable of each bilinear term y array to second variable of each bilinear term nbilinterms buffer to store the total number of bilinear terms nunderests array to store the total number of constraints that require to underestimate a bilinear term noverests array to store the total number of constraints that require to overestimate a bilinear term maxnonconvexity largest absolute value of nonconvex eigenvalues of all quadratic constraints containing a bilinear term
Definition at line 15724 of file cons_quadratic.c.
References CONSHDLR_NAME, getIneqViol(), NULL, SCIP_OKAY, SCIPconshdlrGetData(), and SCIPfindConshdlr().
Referenced by SCIPgetNAllBilinearTermsQuadratic().
◆ SCIPaddBilinearIneqQuadratic()
SCIP_RETCODE SCIPaddBilinearIneqQuadratic | ( | SCIP * | scip, |
SCIP_VAR * | x, | ||
SCIP_VAR * | y, | ||
int | idx, | ||
SCIP_Real | xcoef, | ||
SCIP_Real | ycoef, | ||
SCIP_Real | constant, | ||
SCIP_Bool * | success | ||
) |
adds a globally valid inequality of the form xcoef x <= ycoef y + constant for a bilinear term (x,y)
- Note
- the indices of bilinear terms match with the entries of bilinear terms returned by SCIPgetAllBilinearTermsQuadratic
- Parameters
-
scip SCIP data structure x first variable y second variable idx index of the bilinear term xcoef x coefficient ycoef y coefficient constant constant part success buffer to store whether inequality has been accepted
Definition at line 15813 of file cons_quadratic.c.
References CONSHDLR_NAME, FALSE, getIneqViol(), BilinearEstimator::ineqoverest, BilinearEstimator::inequnderest, MAX, BilinearEstimator::nineqoverest, BilinearEstimator::ninequnderest, NULL, SCIP_INVALID, SCIP_OKAY, SCIP_Real, SCIPconshdlrGetData(), SCIPcreateRowprep(), SCIPdebugMsg, SCIPfindConshdlr(), SCIPisFeasEQ(), SCIPisFeasLE(), SCIPisFeasZero(), SCIPisGT(), SCIPvarGetName(), TRUE, BilinearEstimator::x, and BilinearEstimator::y.
Referenced by getIneqViol().
◆ SCIPcreateConsSetpart()
SCIP_RETCODE SCIPcreateConsSetpart | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures a set partitioning constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9056 of file cons_setppc.c.
References createConsSetppc(), SCIP_SETPPCTYPE_PARTITIONING, and SCIPcreateConsBasicSetpart().
Referenced by branchOnVertex(), cliquePresolve(), consdataLinearize(), createAndAddLinearCons(), createMipCpFormulation(), createProbQP(), createProbSimplified(), createProbSimplifiedTest(), extractGates(), and processIntegerBoundChg().
◆ SCIPcreateConsBasicSetpart()
SCIP_RETCODE SCIPcreateConsBasicSetpart | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures a set partitioning constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSetpart() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a set partitioning constraint with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries
Definition at line 9096 of file cons_setppc.c.
Referenced by createCipFormulation(), createMipFormulation(), SCIP_DECL_SOLVECUMULATIVE(), SCIPcreateConsSetpart(), and setupProblem().
◆ SCIPcreateConsSetpack()
SCIP_RETCODE SCIPcreateConsSetpack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures a set packing constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9114 of file cons_setppc.c.
References createConsSetppc(), SCIP_SETPPCTYPE_PACKING, and SCIPcreateConsBasicSetpack().
Referenced by addCliques(), addExtraCliques(), cliquePresolve(), consdataLinearize(), createAndAddLinearCons(), createCoveringProblem(), createPrizeConstraints(), deleteRedundantVars(), detectRedundantVars(), dualWeightsTightening(), fixDeleteOrUpgradeCons(), presolRoundConsSOS1(), removeConstraintsDueToNegCliques(), tightenWeights(), upgradeCons(), and upgradeConss().
◆ SCIPcreateConsBasicSetpack()
SCIP_RETCODE SCIPcreateConsBasicSetpack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures a set packing constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSetpack() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a set packing constraint with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries
Definition at line 9154 of file cons_setppc.c.
Referenced by createSetPackingCons(), and SCIPcreateConsSetpack().
◆ SCIPcreateConsSetcover()
SCIP_RETCODE SCIPcreateConsSetcover | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures a set covering constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 9172 of file cons_setppc.c.
References createConsSetppc(), SCIP_SETPPCTYPE_COVERING, and SCIPcreateConsBasicSetcover().
Referenced by COLORprobSetUpArrayOfCons(), createAndAddLinearCons(), CUTOFF_CONSTRAINT(), forbidCover(), forbidFixation(), processNlRow(), and readCnf().
◆ SCIPcreateConsBasicSetcover()
SCIP_RETCODE SCIPcreateConsBasicSetcover | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures a set packing constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSetpack() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a set covering constraint with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries
Definition at line 9212 of file cons_setppc.c.
Referenced by SCIPcreateConsSetcover(), and SCIPprobdataCreate().
◆ SCIPaddCoefSetppc()
SCIP_RETCODE SCIPaddCoefSetppc | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var | ||
) |
adds coefficient in set partitioning / packing / covering constraint
- Parameters
-
scip SCIP data structure cons constraint data var variable to add to the constraint
Definition at line 9227 of file cons_setppc.c.
References addCoef(), CONSHDLR_NAME, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNVarsSetppc().
Referenced by addCoefTerm(), branchOnVertex(), cliquePresolve(), createCipFormulation(), createInitialColumns(), createMipCpFormulation(), createMipFormulation(), createProbQP(), createProbSimplified(), createProbSimplifiedTest(), createSetPackingCons(), createVariables(), SCIP_DECL_HEUREXEC(), SCIP_DECL_PRICERFARKAS(), SCIP_DECL_PRICERREDCOST(), SCIP_DECL_READERREAD(), SCIP_DECL_SOLVECUMULATIVE(), and SCIPaddCoefPseudoboolean().
◆ SCIPgetNVarsSetppc()
gets number of variables in set partitioning / packing / covering constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9250 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsSetppc().
Referenced by addSetppcConstraints(), cleanupHashDatas(), computeSymmetryGroup(), correctPresoldata(), createAltLP(), createPresoldata(), getLinearConsNVars(), getLinearConsVarsData(), packingUpgrade(), presolveAddKKTSetppcConss(), SCIP_DECL_BRANCHEXECLP(), SCIPaddCoefSetppc(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), strenghtenOrbitopeConstraint(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetVarsSetppc()
gets array of variables in set partitioning / packing / covering constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9271 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetTypeSetppc().
Referenced by addSetppcConstraints(), computeSymmetryGroup(), correctPresoldata(), createAltLP(), createPresoldata(), getLinearConsVarsData(), packingUpgrade(), presolveAddKKTSetppcConss(), saveConsLinear(), SCIP_DECL_BRANCHEXECLP(), SCIPgetNVarsSetppc(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), strenghtenOrbitopeConstraint(), writeFzn(), writeOpbConstraints(), and writeOpbObjective().
◆ SCIPgetTypeSetppc()
SCIP_SETPPCTYPE SCIPgetTypeSetppc | ( | SCIP * | scip, |
SCIP_CONS * | cons | ||
) |
gets type of set partitioning / packing / covering constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9292 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDualsolSetppc().
Referenced by addSetppcConstraints(), cleanupHashDatas(), computeSymmetryGroup(), correctPresoldata(), createAltLP(), createPresoldata(), findAggregation(), getLinearConsSides(), packingUpgrade(), presolveAddKKTSetppcConss(), saveConsLinear(), SCIPconsGetLhs(), SCIPconsGetRhs(), SCIPgetVarsSetppc(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), strenghtenOrbitopeConstraint(), tryUpgradingSetppc(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetDualsolSetppc()
gets the dual solution of the set partitioning / packing / covering constraint in the current LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9312 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetDualfarkasSetppc(), and SCIProwGetDualsol().
Referenced by initPricing(), SCIP_DECL_PRICERREDCOST(), SCIPconsGetDualsol(), and SCIPgetTypeSetppc().
◆ SCIPgetDualfarkasSetppc()
gets the dual Farkas value of the set partitioning / packing / covering constraint in the current infeasible LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9336 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetRowSetppc(), and SCIProwGetDualfarkas().
Referenced by SCIPconsGetDualfarkas(), and SCIPgetDualsolSetppc().
◆ SCIPgetRowSetppc()
returns the linear relaxation of the given set partitioning / packing / covering constraint; may return NULL if no LP row was yet created; the user must not modify the row!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9362 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNFixedonesSetppc().
Referenced by SCIPconsGetRow(), and SCIPgetDualfarkasSetppc().
◆ SCIPgetNFixedonesSetppc()
returns current number of variables fixed to one in the constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9383 of file cons_setppc.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetNFixedzerosSetppc().
Referenced by addFixedVarsConss(), initPricing(), SCIP_DECL_PRICERREDCOST(), and SCIPgetRowSetppc().
◆ SCIPgetNFixedzerosSetppc()
returns current number of variables fixed to zero in the constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 9405 of file cons_setppc.c.
References NULL, SCIPABORT, SCIPconsGetData(), and SCIPerrorMessage.
Referenced by SCIPgetNFixedonesSetppc().
◆ SCIPcreateConsSOC()
SCIP_RETCODE SCIPcreateConsSOC | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | coefs, | ||
SCIP_Real * | offsets, | ||
SCIP_Real | constant, | ||
SCIP_VAR * | rhsvar, | ||
SCIP_Real | rhscoeff, | ||
SCIP_Real | rhsoffset, | ||
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 | ||
) |
creates and captures a second order cone constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables on left hand side of constraint (n) vars array with variables on left hand side (x_i) coefs array with coefficients of left hand side variables (alpha_i), or NULL if all 1.0 offsets array with offsets of variables (beta_i), or NULL if all 0.0 constant constant on left hand side (gamma) rhsvar variable on right hand side of constraint (x_{n+1}) rhscoeff coefficient of variable on right hand side (alpha_{n+1}) rhsoffset offset of variable on right hand side (beta_{n+1}) initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'.
Definition at line 5191 of file cons_soc.c.
References ABS, BMSclearMemoryArray, catchVarEvents(), CONSHDLR_NAME, FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPallocBlockMemory, SCIPallocBlockMemoryArray, SCIPcaptureVar(), SCIPcomputeVarLbGlobal(), SCIPcomputeVarLbLocal(), SCIPcomputeVarUbGlobal(), SCIPcomputeVarUbLocal(), SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicSOC(), SCIPduplicateBlockMemoryArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPisGE(), SCIPisInfinity(), SCIPisLE(), and SCIPisTransformed().
Referenced by SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIP_DECL_QUADCONSUPGD(), SCIPcreateConsBasicSOC(), and SCIPincludeConshdlrSOC().
◆ SCIPcreateConsBasicSOC()
SCIP_RETCODE SCIPcreateConsBasicSOC | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | coefs, | ||
SCIP_Real * | offsets, | ||
SCIP_Real | constant, | ||
SCIP_VAR * | rhsvar, | ||
SCIP_Real | rhscoeff, | ||
SCIP_Real | rhsoffset | ||
) |
creates and captures a second order cone constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSOC() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a second order cone constraint with all its constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables on left hand side of constraint (n) vars array with variables on left hand side (x_i) coefs array with coefficients of left hand side variables (alpha_i), or NULL if all 1.0 offsets array with offsets of variables (beta_i), or NULL if all 0.0 constant constant on left hand side (gamma) rhsvar variable on right hand side of constraint (x_{n+1}) rhscoeff coefficient of variable on right hand side (alpha_{n+1}) rhsoffset offset of variable on right hand side (beta_{n+1})
Definition at line 5320 of file cons_soc.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsSOC(), SCIPgetNlRowSOC(), and TRUE.
Referenced by disaggregate(), SCIPcreateConsSOC(), and setupProblem().
◆ SCIPgetNlRowSOC()
SCIP_RETCODE SCIPgetNlRowSOC | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLROW ** | nlrow | ||
) |
Gets the SOC constraint as a nonlinear row representation.
- Parameters
-
scip SCIP data structure cons constraint nlrow pointer to store nonlinear row
Definition at line 5342 of file cons_soc.c.
References createNlRow(), NULL, SCIP_CALL, SCIP_OKAY, SCIPconsGetData(), SCIPconsGetHdlr(), and SCIPgetNLhsVarsSOC().
Referenced by createCoveringProblem(), and SCIPcreateConsBasicSOC().
◆ SCIPgetNLhsVarsSOC()
Gets the number of variables on the left hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5367 of file cons_soc.c.
References NULL, SCIPconsGetData(), and SCIPgetLhsVarsSOC().
Referenced by createCoveringProblem(), printSOCCons(), SCIPgetNlRowSOC(), SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetLhsVarsSOC()
Gets the variables on the left hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5379 of file cons_soc.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsCoefsSOC().
Referenced by createCoveringProblem(), printSOCCons(), SCIPgetNLhsVarsSOC(), SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetLhsCoefsSOC()
Gets the coefficients of the variables on the left hand side of a SOC constraint, or NULL if all are equal to 1.0.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5391 of file cons_soc.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsOffsetsSOC().
Referenced by createCoveringProblem(), printSOCCons(), SCIPgetLhsVarsSOC(), SCIPwriteGms(), and SCIPwriteMps().
◆ SCIPgetLhsOffsetsSOC()
Gets the offsets of the variables on the left hand side of a SOC constraint, or NULL if all are equal to 0.0.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5403 of file cons_soc.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetLhsConstantSOC().
Referenced by printSOCCons(), SCIPgetLhsCoefsSOC(), SCIPwriteGms(), and SCIPwriteMps().
◆ SCIPgetLhsConstantSOC()
Gets the constant on the left hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5415 of file cons_soc.c.
References NULL, SCIPconsGetData(), and SCIPgetRhsVarSOC().
Referenced by printSOCCons(), SCIPgetLhsOffsetsSOC(), SCIPwriteGms(), and SCIPwriteMps().
◆ SCIPgetRhsVarSOC()
Gets the variable on the right hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5427 of file cons_soc.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetRhsCoefSOC().
Referenced by createCoveringProblem(), printSOCCons(), SCIPgetLhsConstantSOC(), SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetRhsCoefSOC()
Gets the coefficient of the variable on the right hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5439 of file cons_soc.c.
References NULL, SCIP_Real, SCIPconsGetData(), and SCIPgetRhsOffsetSOC().
Referenced by createCoveringProblem(), printSOCCons(), SCIPgetRhsVarSOC(), SCIPwriteGms(), and SCIPwriteMps().
◆ SCIPgetRhsOffsetSOC()
Gets the offset of the variables on the right hand side of a SOC constraint.
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5451 of file cons_soc.c.
References NULL, SCIPaddToNlpiProblemSOC(), and SCIPconsGetData().
Referenced by printSOCCons(), SCIPgetRhsCoefSOC(), SCIPwriteGms(), and SCIPwriteMps().
◆ SCIPaddToNlpiProblemSOC()
SCIP_RETCODE SCIPaddToNlpiProblemSOC | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_NLPI * | nlpi, | ||
SCIP_NLPIPROBLEM * | nlpiprob, | ||
SCIP_HASHMAP * | scipvar2nlpivar, | ||
SCIP_Bool | names | ||
) |
Adds the constraint to an NLPI problem. Uses nonconvex formulation as quadratic function.
- Parameters
-
scip SCIP data structure cons SOC constraint nlpi interface to NLP solver nlpiprob NLPI problem where to add constraint scipvar2nlpivar mapping from SCIP variables to variable indices in NLPI names whether to pass constraint names to NLPI
Definition at line 5465 of file cons_soc.c.
References SCIP_QuadElement::coef, SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, NULL, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPconsGetData(), SCIPconsGetName(), SCIPfreeBufferArray, SCIPfreeBufferArrayNull, SCIPhashmapGetImage(), SCIPinfinity(), and SCIPnlpiAddConstraints().
Referenced by SCIPgetRhsOffsetSOC().
◆ SCIPcreateConsSOS1()
SCIP_RETCODE SCIPcreateConsSOS1 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | weights, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures an SOS1 constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- The constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons().
creates and captures a SOS1 constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- The constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons().
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries weights weights determining the variable order, or NULL if natural order should be used initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 10367 of file cons_sos1.c.
References CONSHDLR_NAME, FALSE, handleNewVariableSOS1(), NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIP_STAGE_TRANSFORMED, SCIPallocBlockMemory, SCIPconshdlrGetData(), SCIPconsIsTransformed(), SCIPcreateCons(), SCIPcreateConsBasicSOS1(), SCIPduplicateBlockMemoryArray, SCIPerrorMessage, SCIPfindConshdlr(), SCIPgetStage(), SCIPgetTransformedVar(), SCIPmarkDoNotMultaggrVar(), SCIPsortRealPtr(), and SCIPvarIsTransformed().
Referenced by addBranchingComplementaritiesSOS1(), extensionOperatorSOS1(), performImplicationGraphAnalysis(), readSOS(), readSos(), readSOScons(), and SCIPcreateConsBasicSOS1().
◆ SCIPcreateConsBasicSOS1()
SCIP_RETCODE SCIPcreateConsBasicSOS1 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | weights | ||
) |
creates and captures an SOS1 constraint in its most basic variant, i. e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSOS1() for the default constraint flag configuration
- Warning
- Do NOT set the constraint to be modifiable manually, because this might lead to wrong results as the variable array will not be resorted
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a SOS1 constraint with all constraint flags set to their default values.
- Warning
- Do NOT set the constraint to be modifiable manually, because this might lead to wrong results as the variable array will not be resorted
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries weights weights determining the variable order, or NULL if natural order should be used
Definition at line 10488 of file cons_sos1.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPaddVarSOS1(), SCIPcreateConsSOS1(), and TRUE.
Referenced by createKKTComplementarityBinary(), createKKTComplementarityBounds(), createKKTComplementarityLinear(), and SCIPcreateConsSOS1().
◆ SCIPaddVarSOS1()
SCIP_RETCODE SCIPaddVarSOS1 | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | weight | ||
) |
adds variable to SOS1 constraint, the position is determined by the given weight
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint weight weight determining position of variable
Definition at line 10504 of file cons_sos1.c.
References addVarSOS1(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPappendVarSOS1(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPerrorMessage, and SCIPvarGetName().
Referenced by createKKTComplementarityBinary(), createKKTComplementarityBounds(), createKKTComplementarityLinear(), readSOS(), readSos(), readSOScons(), and SCIPcreateConsBasicSOS1().
◆ SCIPappendVarSOS1()
SCIP_RETCODE SCIPappendVarSOS1 | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var | ||
) |
appends variable to SOS1 constraint
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint
Definition at line 10538 of file cons_sos1.c.
Referenced by SCIPaddVarSOS1().
◆ SCIPgetNVarsSOS1()
gets number of variables in SOS1 constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 10571 of file cons_sos1.c.
Referenced by SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetVarsSOS1()
gets array of variables in SOS1 constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 10596 of file cons_sos1.c.
Referenced by SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetWeightsSOS1()
gets array of weights in SOS1 constraint (or NULL if not existent)
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 10621 of file cons_sos1.c.
Referenced by SCIPgetConsVals(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetConflictgraphSOS1()
SCIP_DIGRAPH* SCIPgetConflictgraphSOS1 | ( | SCIP_CONSHDLR * | conshdlr | ) |
gets conflict graph of SOS1 constraints (or NULL if not existent)
- Note
- The conflict graph is globally valid; local changes are not taken into account.
- Parameters
-
conshdlr SOS1 constraint handler
Definition at line 10649 of file cons_sos1.c.
Referenced by getDiveBdChgsSOS1conflictgraph(), makeSOS1conflictgraphFeasible(), SCIP_DECL_SEPAEXECLP(), and sepaBoundInequalitiesFromGraph().
◆ SCIPgetNSOS1Vars()
int SCIPgetNSOS1Vars | ( | SCIP_CONSHDLR * | conshdlr | ) |
gets number of problem variables that are part of the SOS1 conflict graph
- Parameters
-
conshdlr SOS1 constraint handler
Definition at line 10671 of file cons_sos1.c.
Referenced by getDiveBdChgsSOS1conflictgraph(), makeSOS1conflictgraphFeasible(), SCIP_DECL_SEPAEXECLP(), SCIPperformGenericDivingAlgorithm(), and sepaBoundInequalitiesFromGraph().
◆ SCIPvarIsSOS1()
SCIP_Bool SCIPvarIsSOS1 | ( | SCIP_CONSHDLR * | conshdlr, |
SCIP_VAR * | var | ||
) |
returns whether variable is part of the SOS1 conflict graph
- Parameters
-
conshdlr SOS1 constraint handler var variable
Definition at line 10693 of file cons_sos1.c.
◆ SCIPvarGetNodeSOS1()
int SCIPvarGetNodeSOS1 | ( | SCIP_CONSHDLR * | conshdlr, |
SCIP_VAR * | var | ||
) |
returns node of variable in the conflict graph or -1 if variable is not part of the SOS1 conflict graph
returns SOS1 index of variable or -1 if variable is not part of the SOS1 conflict graph
- Parameters
-
conshdlr SOS1 constraint handler var variable
Definition at line 10717 of file cons_sos1.c.
Referenced by markNeighborsMWISHeuristic().
◆ SCIPnodeGetVarSOS1()
SCIP_VAR* SCIPnodeGetVarSOS1 | ( | SCIP_DIGRAPH * | conflictgraph, |
int | node | ||
) |
returns variable that belongs to a given node from the conflict graph
- Parameters
-
conflictgraph conflict graph node node from the conflict graph
Definition at line 10748 of file cons_sos1.c.
Referenced by addBranchingComplementaritiesSOS1(), enforceConflictgraph(), extensionOperatorSOS1(), getBranchingDecisionStrongbranchSOS1(), getBranchingPrioritiesSOS1(), getBranchingVerticesSOS1(), getDiveBdChgsSOS1conflictgraph(), getVectorOfWeights(), initImplGraphSOS1(), initTCliquegraph(), isViolatedSOS1(), makeSOS1conflictgraphFeasible(), markNeighborsMWISHeuristic(), nodeGetSolvalBinaryBigMSOS1(), performImplicationGraphAnalysis(), performStrongbranchSOS1(), presolRoundVarsSOS1(), propVariableNonzero(), SCIP_DECL_SEPAEXECLP(), tightenVarsBoundsSOS1(), and updateWeightsTCliquegraph().
◆ SCIPmakeSOS1sFeasible()
SCIP_RETCODE SCIPmakeSOS1sFeasible | ( | SCIP * | scip, |
SCIP_CONSHDLR * | conshdlr, | ||
SCIP_SOL * | sol, | ||
SCIP_Bool * | changed, | ||
SCIP_Bool * | success | ||
) |
based on solution values of the variables, fixes variables to zero to turn all SOS1 constraints feasible
- Parameters
-
scip SCIP pointer conshdlr SOS1 constraint handler sol solution changed pointer to store whether the solution has been changed success pointer to store whether SOS1 constraints have been turned feasible and solution was good enough
Definition at line 10773 of file cons_sos1.c.
References CONSHDLR_NAME, FALSE, makeSOS1conflictgraphFeasible(), makeSOS1constraintsFeasible(), NULL, SCIP_Bool, SCIP_CALL, SCIP_OBJSENSE_MAXIMIZE, SCIP_OKAY, SCIP_PARAMETERWRONGVAL, SCIP_Real, SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPconshdlrGetNConss(), SCIPerrorMessage, SCIPgetObjsense(), SCIPgetSolOrigObj(), SCIPgetUpperbound(), SCIPisLT(), and TRUE.
Referenced by SCIPperformGenericDivingAlgorithm().
◆ SCIPcreateConsSOS2()
SCIP_RETCODE SCIPcreateConsSOS2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | weights, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures an SOS2 constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a SOS2 constraint
We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these weights (in ascending order).
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries weights weights determining the variable order, or NULL if natural order should be used initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 2317 of file cons_sos2.c.
References CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPallocBlockMemory, SCIPcreateCons(), SCIPcreateConsBasicSOS2(), SCIPduplicateBlockMemoryArray, SCIPerrorMessage, SCIPfindConshdlr(), and SCIPsortRealPtr().
Referenced by readSOS(), readSos(), readSOScons(), SCIP_DECL_CONSCOPY(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicSOS2(), and SCIPincludeConshdlrSOS2().
◆ SCIPcreateConsBasicSOS2()
SCIP_RETCODE SCIPcreateConsBasicSOS2 | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
SCIP_Real * | weights | ||
) |
creates and captures a SOS2 constraint with all constraint flags set to their default values.
- Warning
- Do NOT set the constraint to be modifiable manually, because this might lead to wrong results as the variable array will not be resorted
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint nvars number of variables in the constraint vars array with variables of constraint entries weights weights determining the variable order, or NULL if natural order should be used
Definition at line 2400 of file cons_sos2.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPaddVarSOS2(), SCIPcreateConsSOS2(), and TRUE.
Referenced by SCIPcreateConsSOS2().
◆ SCIPaddVarSOS2()
SCIP_RETCODE SCIPaddVarSOS2 | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var, | ||
SCIP_Real | weight | ||
) |
adds variable to SOS2 constraint, the position is determined by the given weight
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint weight weight determining position of variable
Definition at line 2416 of file cons_sos2.c.
References addVarSOS2(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPappendVarSOS2(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPerrorMessage, and SCIPvarGetName().
Referenced by readSOS(), readSos(), readSOScons(), SCIP_DECL_CONSPARSE(), and SCIPcreateConsBasicSOS2().
◆ SCIPappendVarSOS2()
SCIP_RETCODE SCIPappendVarSOS2 | ( | SCIP * | scip, |
SCIP_CONS * | cons, | ||
SCIP_VAR * | var | ||
) |
appends variable to SOS2 constraint
- Parameters
-
scip SCIP data structure cons constraint var variable to add to the constraint
Definition at line 2442 of file cons_sos2.c.
References appendVarSOS2(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_INVALIDDATA, SCIP_OKAY, SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetName(), SCIPdebugMsg, SCIPerrorMessage, SCIPgetNVarsSOS2(), and SCIPvarGetName().
Referenced by SCIPaddVarSOS2().
◆ SCIPgetNVarsSOS2()
gets number of variables in SOS2 constraint
- Parameters
-
scip SCIP data structure cons constraint
Definition at line 2467 of file cons_sos2.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsSOS2().
Referenced by SCIPappendVarSOS2(), SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetVarsSOS2()
gets array of variables in SOS2 constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 2492 of file cons_sos2.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetWeightsSOS2().
Referenced by SCIPgetNVarsSOS2(), SCIPwriteGms(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPgetWeightsSOS2()
gets array of weights in SOS2 constraint (or NULL if not existent)
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 2517 of file cons_sos2.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPgetConsVals(), SCIPgetVarsSOS2(), SCIPwriteLp(), and SCIPwriteMps().
◆ SCIPcreateConsSuperindicator()
SCIP_RETCODE SCIPcreateConsSuperindicator | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
SCIP_CONS * | slackcons, | ||
SCIP_Bool | initial, | ||
SCIP_Bool | separate, | ||
SCIP_Bool | enforce, | ||
SCIP_Bool | check, | ||
SCIP_Bool | propagate, | ||
SCIP_Bool | local, | ||
SCIP_Bool | dynamic, | ||
SCIP_Bool | removable, | ||
SCIP_Bool | stickingatnode | ||
) |
creates and captures a superindicator constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint binvar pointer to the indicator constraint slackcons constraint corresponding to the handled constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 1991 of file cons_superindicator.c.
References consdataCreateSuperindicator(), CONSHDLR_NAME, FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_INVALIDCALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetData(), SCIPconshdlrGetName(), SCIPcreateCons(), SCIPcreateConsBasicSuperindicator(), SCIPerrorMessage, SCIPfindConshdlr(), and SCIPwarningMessage().
Referenced by SCIPcreateConsBasicSuperindicator(), SCIPincludeConshdlrSuperindicator(), and SCIPtransformMinUC().
◆ SCIPcreateConsBasicSuperindicator()
SCIP_RETCODE SCIPcreateConsBasicSuperindicator | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | binvar, | ||
SCIP_CONS * | slackcons | ||
) |
creates and captures a superindicator constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsSuperindicator(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsSuperindicator() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint binvar pointer to the indicator constraint slackcons constraint corresponding to the handled constraint
Definition at line 2102 of file cons_superindicator.c.
References FALSE, NULL, SCIP_CALL, SCIP_OKAY, SCIPcreateConsSuperindicator(), SCIPgetBinaryVarSuperindicator(), and TRUE.
Referenced by SCIPcreateConsSuperindicator().
◆ SCIPgetBinaryVarSuperindicator()
gets binary variable corresponding to the superindicator constraint
gets binary variable corresponding to the general indicator constraint
- Parameters
-
cons superindicator constraint
Definition at line 2124 of file cons_superindicator.c.
References CONSHDLR_NAME, NULL, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPgetSlackConsSuperindicator().
Referenced by SCIPcreateConsBasicSuperindicator().
◆ SCIPgetSlackConsSuperindicator()
gets the slack constraint corresponding to the superindicator constraint
gets the slack constraint corresponding to the general indicator constraint
- Parameters
-
cons superindicator constraint
Definition at line 2136 of file cons_superindicator.c.
References CONSHDLR_NAME, NULL, SCIP_Bool, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPtransformMinUC().
Referenced by SCIPgetBinaryVarSuperindicator().
◆ SCIPtransformMinUC()
SCIP_RETCODE SCIPtransformMinUC | ( | SCIP * | scip, |
SCIP_Bool * | success | ||
) |
transforms the current problem into a MinUC problem (minimizing the number of unsatisfied constraints), a CIP generalization of the MinULR (min. unsatisfied linear relations) problem
- Parameters
-
scip SCIP data structure success pointer to store whether all constraints could be transformed
Definition at line 2155 of file cons_superindicator.c.
References FALSE, NULL, SCIP_Bool, SCIP_CALL, SCIP_DECL_DIALOGEXEC(), SCIP_INVALIDCALL, SCIP_MAXSTRLEN, SCIP_OBJSENSE_MINIMIZE, SCIP_OKAY, SCIP_STAGE_PROBLEM, SCIP_VARTYPE_BINARY, SCIPaddCons(), SCIPaddVar(), SCIPchgVarBranchPriority(), SCIPchgVarObj(), SCIPconsGetHdlr(), SCIPconsGetName(), SCIPconshdlrGetName(), SCIPconsIsChecked(), SCIPconsIsDynamic(), SCIPconsIsEnforced(), SCIPconsIsInitial(), SCIPconsIsLocal(), SCIPconsIsPropagated(), SCIPconsIsRemovable(), SCIPconsIsSeparated(), SCIPconsIsStickingAtNode(), SCIPcreateConsSuperindicator(), SCIPcreateVar(), SCIPdebugMsg, SCIPdelCons(), SCIPduplicateBufferArray, SCIPerrorMessage, SCIPfreeBufferArray, SCIPgetConss(), SCIPgetNConss(), SCIPgetNegatedVar(), SCIPgetStage(), SCIPgetVarsData(), SCIPreleaseCons(), SCIPreleaseVar(), SCIPsetObjsense(), SCIPsnprintf(), SCIPvarGetBranchPriority(), and TRUE.
Referenced by SCIPgetSlackConsSuperindicator().
◆ SCIP_DECL_DIALOGEXEC() [4/4]
SCIP_DECL_DIALOGEXEC | ( | SCIPdialogExecChangeMinUC | ) |
dialog execution method for the SCIPtransformMinUC() command
dialog execution method for the SCIPtransformMinUC() method
Definition at line 2291 of file cons_superindicator.c.
Referenced by SCIPtransformMinUC().
◆ SCIPcreateSymbreakCons()
SCIP_RETCODE SCIPcreateSymbreakCons | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int * | perm, | ||
SCIP_VAR ** | vars, | ||
int | nvars, | ||
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 | ||
) |
creates a symmetry breaking constraint
Depending on the given permutation, either an orbisack or symresack constraint is created.
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint perm permutation vars variables nvars number of variables in vars array initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 1307 of file cons_symresack.c.
References FALSE, NULL, orbisackUpgrade(), SCIP_Bool, SCIP_CALL, SCIP_DECL_CONSDELETE(), SCIP_OKAY, and SCIPcreateConsSymresack().
Referenced by addSymresackConss(), and orbisackUpgrade().
◆ SCIPcreateConsSymresack()
SCIP_RETCODE SCIPcreateConsSymresack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int * | perm, | ||
SCIP_VAR ** | vars, | ||
int | nvars, | ||
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 | ||
) |
creates and captures a symresack constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a symresack constraint
In a presolving step, we check whether the permutation acts only on binary points. Otherwise, we eliminate the non-binary variables from the permutation.
- Note
- The constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons().
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint perm permutation vars variables nvars number of variables in vars array initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 2354 of file cons_symresack.c.
References consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicSymresack(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by SCIPcreateConsBasicSymresack(), SCIPcreateSymbreakCons(), and SCIPincludeConshdlrSymresack().
◆ SCIPcreateConsBasicSymresack()
SCIP_RETCODE SCIPcreateConsBasicSymresack | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
int * | perm, | ||
SCIP_VAR ** | vars, | ||
int | nvars | ||
) |
creates and captures a symresack constraint in its most basic variant, i.e., with all constraint flags set to their default values, which can be set afterwards using SCIPsetConsFLAGNAME() in scip.h
- See also
- SCIPcreateConsSymresack() for the default constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a symresack constraint in its most basic variant, i.e., with all constraint flags set to their default values
In a presolving step, we remove all fixed points and cycles that act on non-binary variables of the permutation
- Note
- The constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons().
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint perm permutation vars variables nvars number of variables in vars array
Definition at line 2418 of file cons_symresack.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsSymresack(), and TRUE.
Referenced by SCIPcreateConsSymresack().
◆ SCIPcreateConsVarbound()
SCIP_RETCODE SCIPcreateConsVarbound | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | var, | ||
SCIP_VAR * | vbdvar, | ||
SCIP_Real | vbdcoef, | ||
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 | ||
) |
creates and captures a variable bound constraint: lhs <= x + c*y <= rhs
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint var variable x that has variable bound vbdvar binary, integer or implicit integer bounding variable y vbdcoef coefficient c of bounding variable y lhs left hand side of variable bound inequality rhs right hand side of variable bound inequality initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 4799 of file cons_varbound.c.
References catchEvents(), consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPconshdlrGetData(), SCIPcreateCons(), SCIPcreateConsBasicVarbound(), SCIPerrorMessage, SCIPfindConshdlr(), and SCIPisTransformed().
Referenced by addVarbound(), createPrecedenceCons(), createVarUbs(), presolveTryAddLinearReform(), SCIP_DECL_CONSINITLP(), SCIP_DECL_CONSPARSE(), SCIP_DECL_CONSPRESOL(), SCIP_DECL_LINCONSUPGD(), SCIPcreateConsBasicVarbound(), SCIPcreateSchedulingProblem(), and SCIPincludeConshdlrVarbound().
◆ SCIPcreateConsBasicVarbound()
SCIP_RETCODE SCIPcreateConsBasicVarbound | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_VAR * | var, | ||
SCIP_VAR * | vbdvar, | ||
SCIP_Real | vbdcoef, | ||
SCIP_Real | lhs, | ||
SCIP_Real | rhs | ||
) |
creates and captures a varbound constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsVarbound(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsVarbound() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a variable bound constraint: lhs <= x + c*y <= rhs with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint var variable x that has variable bound vbdvar binary, integer or implicit integer bounding variable y vbdcoef coefficient c of bounding variable y lhs left hand side of variable bound inequality rhs right hand side of variable bound inequality
Definition at line 4869 of file cons_varbound.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPcreateConsVarbound(), SCIPgetLhsVarbound(), and TRUE.
Referenced by addBranchingDecisionConss(), applyRepair(), createVarboundCons(), and SCIPcreateConsVarbound().
◆ SCIPgetLhsVarbound()
gets left hand side of variable bound constraint lhs <= x + c*y <= rhs
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4887 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetRhsVarbound().
Referenced by addVarboundConstraints(), checkVarbound(), computeSymmetryGroup(), createAltLP(), presolveAddKKTVarboundConss(), printRangeSection(), SCIP_DECL_CONSCOPY(), SCIPconsGetLhs(), SCIPcreateConsBasicVarbound(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetRhsVarbound()
gets right hand side of variable bound constraint lhs <= x + c*y <= rhs
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4908 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarVarbound().
Referenced by addVarboundConstraints(), checkVarbound(), computeSymmetryGroup(), createAltLP(), presolveAddKKTVarboundConss(), printRangeSection(), SCIP_DECL_CONSCOPY(), SCIPconsGetRhs(), SCIPgetLhsVarbound(), SCIPmatrixCreate(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePip(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetVarVarbound()
gets bounded variable x of variable bound constraint lhs <= x + c*y <= rhs
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4929 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVbdvarVarbound().
Referenced by addVarboundConstraints(), checkVarbound(), computeSymmetryGroup(), createAltLP(), presolveAddKKTVarboundConss(), SCIP_DECL_CONSCOPY(), SCIPgetRhsVarbound(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetVbdvarVarbound()
gets bounding variable y of variable bound constraint lhs <= x + c*y <= rhs
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4950 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVbdcoefVarbound().
Referenced by addVarboundConstraints(), checkVarbound(), computeSymmetryGroup(), createAltLP(), presolveAddKKTVarboundConss(), SCIP_DECL_CONSCOPY(), SCIPgetVarVarbound(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetVbdcoefVarbound()
gets bound coefficient c of variable bound constraint lhs <= x + c*y <= rhs
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4971 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetDualsolVarbound().
Referenced by addVarboundConstraints(), checkVarbound(), computeSymmetryGroup(), createAltLP(), presolveAddKKTVarboundConss(), SCIP_DECL_CONSCOPY(), SCIPgetConsVals(), SCIPgetVbdvarVarbound(), SCIPmatrixCreate(), SCIPwriteCcg(), SCIPwriteGms(), SCIPwriteLp(), SCIPwriteMps(), SCIPwritePbm(), SCIPwritePip(), SCIPwritePpm(), writeFzn(), and writeOpbConstraints().
◆ SCIPgetDualsolVarbound()
gets the dual solution of the variable bound constraint in the current LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 4992 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIP_Real, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetDualfarkasVarbound(), and SCIProwGetDualsol().
Referenced by SCIPconsGetDualsol(), and SCIPgetVbdcoefVarbound().
◆ SCIPgetDualfarkasVarbound()
gets the dual Farkas value of the variable bound constraint in the current infeasible LP
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5016 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIP_INVALID, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, SCIPgetRowVarbound(), and SCIProwGetDualfarkas().
Referenced by SCIPconsGetDualfarkas(), and SCIPgetDualsolVarbound().
◆ SCIPgetRowVarbound()
returns the linear relaxation of the given variable bound constraint; may return NULL if no LP row was yet created; the user must not modify the row!
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5042 of file cons_varbound.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by SCIPconsGetRow(), and SCIPgetDualfarkasVarbound().
◆ SCIPcreateConsXor()
SCIP_RETCODE SCIPcreateConsXor | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_Bool | rhs, | ||
int | nvars, | ||
SCIP_VAR ** | vars, | ||
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 | ||
) |
creates and captures an xor constraint
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a xor constraint x_0 xor ... xor x_{k-1} = rhs
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint rhs right hand side of the constraint nvars number of operator variables in the constraint vars array with operator variables of constraint initial should the LP relaxation of constraint be in the initial LP? Usually set to TRUE. Set to FALSE for 'lazy constraints'. separate should the constraint be separated during LP processing? Usually set to TRUE. enforce should the constraint be enforced during node processing? TRUE for model constraints, FALSE for additional, redundant constraints. check should the constraint be checked for feasibility? TRUE for model constraints, FALSE for additional, redundant constraints. propagate should the constraint be propagated during node processing? Usually set to TRUE. local is constraint only valid locally? Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. modifiable is constraint modifiable (subject to column generation)? Usually set to FALSE. In column generation applications, set to TRUE if pricing adds coefficients to this constraint. dynamic is constraint subject to aging? Usually set to FALSE. Set to TRUE for own cuts which are separated as constraints. removable should the relaxation be removed from the LP due to aging or cleanup? Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. stickingatnode should the constraint always be kept at the node where it was added, even if it may be moved to a more global node? Usually set to FALSE. Set to TRUE to for constraints that represent node data.
Definition at line 5656 of file cons_xor.c.
References consdataCreate(), CONSHDLR_NAME, NULL, SCIP_CALL, SCIP_OKAY, SCIP_PLUGINNOTFOUND, SCIPcreateCons(), SCIPcreateConsBasicXor(), SCIPerrorMessage, and SCIPfindConshdlr().
Referenced by CREATE_CONSTRAINT(), SCIP_DECL_CONSPARSE(), SCIPcreateConsBasicXor(), SCIPincludeConshdlrXor(), and tryUpgradingXor().
◆ SCIPcreateConsBasicXor()
SCIP_RETCODE SCIPcreateConsBasicXor | ( | SCIP * | scip, |
SCIP_CONS ** | cons, | ||
const char * | name, | ||
SCIP_Bool | rhs, | ||
int | nvars, | ||
SCIP_VAR ** | vars | ||
) |
creates and captures an xor constraint in its most basic version, i. e., all constraint flags are set to their basic value as explained for the method SCIPcreateConsXor(); all flags can be set via SCIPsetConsFLAGNAME-methods in scip.h
- See also
- SCIPcreateConsXor() for information about the basic constraint flag configuration
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
creates and captures a xor constraint x_0 xor ... xor x_{k-1} = rhs with all constraint flags set to their default values
- Note
- the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
- Parameters
-
scip SCIP data structure cons pointer to hold the created constraint name name of constraint rhs right hand side of the constraint nvars number of operator variables in the constraint vars array with operator variables of constraint
Definition at line 5714 of file cons_xor.c.
References FALSE, SCIP_CALL, SCIP_OKAY, SCIPcreateConsXor(), SCIPgetNVarsXor(), and TRUE.
Referenced by createMIP(), and SCIPcreateConsXor().
◆ SCIPgetNVarsXor()
gets number of variables in xor constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5730 of file cons_xor.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetVarsXor().
Referenced by computeSymmetryGroup(), and SCIPcreateConsBasicXor().
◆ SCIPgetVarsXor()
gets array of variables in xor constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5751 of file cons_xor.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetIntVarXor().
Referenced by computeSymmetryGroup(), and SCIPgetNVarsXor().
◆ SCIPgetIntVarXor()
gets integer variable in xor constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5772 of file cons_xor.c.
References CONSHDLR_NAME, NULL, SCIP_Bool, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), SCIPerrorMessage, and SCIPgetRhsXor().
Referenced by computeSymmetryGroup(), and SCIPgetVarsXor().
◆ SCIPgetRhsXor()
gets the right hand side of the xor constraint
- Parameters
-
scip SCIP data structure cons constraint data
Definition at line 5793 of file cons_xor.c.
References CONSHDLR_NAME, NULL, SCIPABORT, SCIPconsGetData(), SCIPconsGetHdlr(), SCIPconshdlrGetName(), and SCIPerrorMessage.
Referenced by computeSymmetryGroup(), SCIP_DECL_CONSCOPY(), and SCIPgetIntVarXor().