cons_soc.c
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17 * @brief constraint handler for second order cone constraints \f$\sqrt{\gamma + \sum_{i=1}^{n} (\alpha_i\, (x_i + \beta_i))^2} \leq \alpha_{n+1}\, (x_{n+1}+\beta_{n+1})\f$
27 /*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/
80 #define CONSHDLR_ENFOPRIORITY -40 /**< priority of the constraint handler for constraint enforcing */
81 #define CONSHDLR_CHECKPRIORITY -10 /**< priority of the constraint handler for checking feasibility */
82 #define CONSHDLR_SEPAFREQ 1 /**< frequency for separating cuts; zero means to separate only in the root node */
83 #define CONSHDLR_PROPFREQ 1 /**< frequency for propagating domains; zero means only preprocessing propagation */
84 #define CONSHDLR_EAGERFREQ 100 /**< frequency for using all instead of only the useful constraints in separation,
86 #define CONSHDLR_MAXPREROUNDS -1 /**< maximal number of presolving rounds the constraint handler participates in (-1: no limit) */
87 #define CONSHDLR_DELAYSEPA FALSE /**< should separation method be delayed, if other separators found cuts? */
88 #define CONSHDLR_DELAYPROP FALSE /**< should propagation method be delayed, if other propagators found reductions? */
89 #define CONSHDLR_NEEDSCONS TRUE /**< should the constraint handler be skipped, if no constraints are available? */
91 #define CONSHDLR_PROP_TIMING SCIP_PROPTIMING_BEFORELP /**< propagation timing mask of the constraint handler */
92 #define CONSHDLR_PRESOLTIMING SCIP_PRESOLTIMING_ALWAYS /**< presolving timing of the constraint handler (fast, medium, or exhaustive) */
94 #define QUADCONSUPGD_PRIORITY 10000 /**< priority of the constraint handler for upgrading of quadratic constraints */
104 {
106 int varidx; /**< the index of a variable on the left hand side which bound change is caught, or -1 for variable on right hand side */
108 };
129 VAREVENTDATA* lhsbndchgeventdata; /**< eventdata for bound change events on left hand side variables */
130 VAREVENTDATA rhsbndchgeventdata; /**< eventdata for bound change event on right hand side variable */
145 SCIP_Bool projectpoint; /**< is the point in which a cut is generated projected onto the feasible set? */
146 int nauxvars; /**< number of auxiliary variables to use when creating a linear outer approx. of a SOC3 constraint */
149 SCIP_Real sparsifynzgrowth; /**< growth rate of maximal allowed nonzeros in cuts in sparsification */
150 SCIP_Bool linfeasshift; /**< whether to try to make solutions feasible in check by shifting the variable on the right hand side */
152 SCIP_Real sepanlpmincont; /**< minimal required fraction of continuous variables in problem to use solution of NLP relaxation in root for separation */
153 SCIP_Bool enfocutsremovable; /**< are cuts added during enforcement removable from the LP in the same node? */
157 SCIP_NODE* lastenfonode; /**< the node for which enforcement was called the last time (and some constraint was violated) */
189 SCIP_CALL( SCIPcatchVarEvent(scip, consdata->vars[varidx], SCIP_EVENTTYPE_BOUNDTIGHTENED, eventhdlr,
190 (SCIP_EVENTDATA*)&consdata->lhsbndchgeventdata[varidx], &consdata->lhsbndchgeventdata[varidx].filterpos) );
192 /* since bound changes were not catched before, a possibly stored activity may have become outdated */
220 /* since bound changes were not catched before, a possibly stored activity may have become outdated */
285 SCIP_CALL( SCIPdropVarEvent(scip, consdata->vars[varidx], SCIP_EVENTTYPE_BOUNDTIGHTENED, eventhdlr,
286 (SCIP_EVENTDATA*)&consdata->lhsbndchgeventdata[varidx], consdata->lhsbndchgeventdata[varidx].filterpos) );
354 {
401 /* if the user let us choose, then we take 's' for "small" SOC constraints, but 'q' for large ones,
402 * since the 's' form leads to nvars^2 elements in Hessian, while the 'q' form yields only n elements
403 * however, if there is no expression interpreter, then the NLPI may have trouble, so we always use 'q' in this case
415 /* construct expression exp(\sqrt{\gamma + \sum_{i=1}^{n} (\alpha_i\, (x_i + \beta_i))^2} - alpha_{n+1}(x_{n+1} + beta_{n+1})) */
426 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_CONST, consdata->constant) ); /* gamma */
438 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, consdata->offsets[i]) ); /* beta_i */
439 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_PLUS, expr, expr2) ); /* x_i + beta_i */
441 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_SQUARE, expr) ); /* (x_i + beta_i)^2 */
444 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, SQR(consdata->coefs[i])) ); /* (alpha_i)^2 */
445 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_MUL, expr, expr2) ); /* (alpha_i)^2 * (x_i + beta_i)^2 */
457 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_SQRT, exprterm) ); /* sqrt(gamma + sum_i (...)^2) */
461 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_VARIDX, consdata->nvars) ); /* x_{n+1} */
464 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, consdata->rhsoffset) ); /* beta_{n+1} */
465 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_PLUS, expr, expr2) ); /* x_{n+1} + beta_{n+1} */
469 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, consdata->rhscoeff) ); /* alpha_{n+1} */
470 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_MUL, expr, expr2) ); /* alpha_{n+1} * (x_{n+1} + beta_{n+1}) */
475 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_CONST, consdata->rhscoeff * consdata->rhsoffset) );
477 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_MINUS, exprterm, expr) ); /* sqrt(gamma + sum_i (...)^2) - alpha_{n+1} * (x_{n+1} + beta_{n+1}) */
479 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_EXP, exprterm) ); /* exp(sqrt(gamma + sum_i (...)^2) - alpha_{n+1} * (x_{n+1} + beta_{n+1})) */
481 SCIP_CALL( SCIPexprtreeCreate(SCIPblkmem(scip), &exprtree, exprterm, consdata->nvars+1, 0, NULL) );
512 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_CONST, consdata->constant) ); /* gamma */
524 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, consdata->offsets[i]) ); /* beta_i */
525 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_PLUS, expr, expr2) ); /* x_i + beta_i */
527 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_SQUARE, expr) ); /* (x_i + beta_i)^2 */
530 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr2, SCIP_EXPR_CONST, SQR(consdata->coefs[i])) ); /* (alpha_i)^2 */
531 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &expr, SCIP_EXPR_MUL, expr, expr2) ); /* (alpha_i)^2 * (x_i + beta_i)^2 */
545 SCIP_CALL( SCIPexprCreate(SCIPblkmem(scip), &exprterm, SCIP_EXPR_SQRT, exprterm) ); /* sqrt(gamma + sum_i (...)^2) */
546 SCIP_CALL( SCIPexprtreeCreate(SCIPblkmem(scip), &exprtree, exprterm, consdata->nvars, 0, NULL) );
572 /* construct quadratic form gamma + sum_{i=1}^{n} (alpha_i (x_i + beta_i))^2 <= (alpha_{n+1} (x_{n+1} + beta_{n+1})^2 */
600 SCIP_CALL( SCIPaddLinearCoefToNlRow(scip, consdata->nlrow, consdata->vars[i], 2.0 * consdata->coefs[i] * consdata->offsets[i]) );
622 SCIP_CALL( SCIPaddLinearCoefToNlRow(scip, consdata->nlrow, consdata->rhsvar, -2.0 * consdata->rhscoeff * consdata->rhsoffset) );
632 /* construct division form (gamma + sum_{i=1}^n (alpha_i(x_i+beta_i))^2)/(alpha_{n+1}(x_{n+1}+beta_{n+1})) <= alpha_{n+1}(x_{n+1}+beta_{n+1}) */
654 SCIP_CALL( SCIPexprCreateLinear(SCIPblkmem(scip), &exprs[i], 1, &exprs[i], &one, consdata->offsets[i]) );
658 SCIP_CALL( SCIPexprCreateMonomial(SCIPblkmem(scip), &monomials[i], consdata->coefs[i] * consdata->coefs[i], 1, &i, &two) );
662 SCIP_CALL( SCIPexprCreatePolynomial(SCIPblkmem(scip), &nominator, consdata->nvars, exprs, consdata->nvars, monomials, consdata->constant, FALSE) ); /*lint !e850 */
670 assert((consdata->rhscoeff >= 0.0 && !SCIPisNegative(scip, SCIPvarGetLbGlobal(consdata->rhsvar) + consdata->rhsoffset)) ||
671 (consdata->rhscoeff <= 0.0 && !SCIPisPositive(scip, SCIPvarGetUbGlobal(consdata->rhsvar) + consdata->rhsoffset)));
675 SCIP_CALL( SCIPexprCreateLinear(SCIPblkmem(scip), &denominator, 1, &denominator, &consdata->rhscoeff, consdata->rhscoeff * consdata->rhsoffset) );
780 if( (consdata->rhscoeff > 0.0 && SCIPisInfinity(scip, SCIPgetSolVal(scip, sol, consdata->rhsvar))) ||
781 ( consdata->rhscoeff < 0.0 && SCIPisInfinity(scip, -SCIPgetSolVal(scip, sol, consdata->rhsvar))) )
825 SCIP_CONS** maxviolcons /**< a buffer to store pointer to maximal violated constraint, or NULL if of no interest */
881 (void) SCIPsnprintf((*rowprep)->name, SCIP_MAXSTRLEN, "%s_linearization_%d", SCIPconsGetName(cons), SCIPgetNLPs(scip));
939 (void) SCIPsnprintf((*rowprep)->name, SCIP_MAXSTRLEN, "%s_linearization_%d", SCIPconsGetName(cons), SCIPgetNLPs(scip));
964 * Instead of linearizing the SOC constraint in the given solution point, this function projects the point
981 * A = \frac{\alpha_{n+1}(\hat x_{n+1}+\beta_{n+1})}{\sqrt{\sum_{i=1}^n (\alpha_i(\hat x_i+\beta_i))^2}}
987 * The only difference is in the right hand side, which is (in the case beta = 0) multiplied by 1/(1-lambda).
1035 (void) SCIPsnprintf((*rowprep)->name, SCIP_MAXSTRLEN, "%s_linearization_%d", SCIPconsGetName(cons), SCIPgetNLPs(scip));
1105 /* distance to "-offset" * alpha_i^2 should indicate loss when moving refpoint to x[i] = -offset[i] */
1135 SCIPdebugMsg(scip, "accepted cut with %d of %d nonzeros, efficacy = %g\n", maxnz, consdata->nvars, efficacy);
1208 if( SCIPisGT(scip, consdata->violation, SCIPfeastol(scip)) && !SCIPisInfinity(scip, consdata->violation) )
1217 SCIP_CALL( generateSparseCut(scip, conshdlr, conss[c], sol, &rowprep, minefficacy) ); /*lint !e613*/
1231 /* NOTE: The way that rowprep was constructed, there should be no need to call SCIPmergeRowprep,
1232 * since no variable gets added twice. However, if rowprep were replacing multiaggregated variables
1235 /* cleanup rowprep (there is no limit on coefrange for cons_soc) TODO add a coefrange limit? */
1236 SCIP_CALL( SCIPcleanupRowprep(scip, rowprep, sol, SCIPinfinity(scip), minefficacy, NULL, &efficacy) );
1268 * others are only checked and enforced if we are still feasible or have not found a separating cut yet
1277 /** adds linearizations cuts for convex constraints w.r.t. a given reference point to cutpool and sepastore
1279 * If separatedlpsol is not NULL, then a cut that separates the LP solution is added to the sepastore and is forced to enter the LP.
1280 * If separatedlpsol is not NULL, but cut does not separate the LP solution, then it is added to the cutpool only.
1290 SCIP_Bool* separatedlpsol, /**< buffer to store whether a cut that separates the current LP solution was found and added to LP, or NULL if adding to cutpool only */
1291 SCIP_Real minefficacy, /**< minimal efficacy of a cut when checking for separation of LP solution */
1322 SCIPdebugMsg(scip, "skip adding linearization for <%s> since lhs is %g\n", SCIPconsGetName(conss[c]), consdata->lhsval); /*lint !e613 */
1367 {
1395 /* we are only interested in solution coming from some heuristic other than trysol, but not from the tree
1396 * the reason for ignoring trysol solutions is that they may come from an NLP solve in sepalp, where we already added linearizations,
1405 SCIPdebugMsg(scip, "caught new sol event %" SCIP_EVENTTYPE_FORMAT " from heur <%s>; have %d conss\n", SCIPeventGetType(event),
1417 * takes care of capture/release and locks, but not of variable events (assumes that var events are not caught yet)
1522 SCIP_CALL( SCIPunlockVarCons(scip, x, cons, consdata->rhscoeff > 0.0, consdata->rhscoeff < 0.0) );
1528 SCIPdebugMsg(scip, " rhs variable is replaced by %g * <%s> + %g\n", coef, SCIPvarGetName(x), offset);
1537 /* replace rhscoef * (rhsvar + rhsoffset) by rhscoef*coef * (x + offset/coef + rhsoffset/coef) */
1546 SCIP_CALL( SCIPlockVarCons(scip, consdata->rhsvar, cons, consdata->rhscoeff > 0.0, consdata->rhscoeff < 0.0) );
1565 /* due to the realloc of the block memory below and the way we store the eventdata in consdata, we best drop all events here and catch them again below */
1608 { /* all variables on left hand size have been removed, remaining constraint is sqrt(gamma) <= ... */
1611 { /* also rhsvar has been removed, remaining constraint is sqrt(gamma) <= rhscoeff * rhsoffset */
1614 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing all variables\n", SCIPconsGetName(cons));
1618 SCIPdebugMsg(scip, "found problem infeasible after fixing all variables in <%s>\n", SCIPconsGetName(cons));
1624 { /* remaining constraint is sqrt(gamma) - rhscoeff * rhsoffset <= rhscoeff * rhsvar, and rhsvar is probably multi-aggregated */
1627 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, SCIPconsGetName(cons), 1, &consdata->rhsvar, &consdata->rhscoeff,
1640 SCIP_CALL( SCIPtightenVarLb(scip, consdata->rhsvar, sqrt(consdata->constant) / consdata->rhscoeff - consdata->rhsoffset, TRUE, iscutoff, &tightened) );
1643 SCIPdebugMsg(scip, "found problem infeasible after fixing all lhs variables in <%s> and tightening lower bound of rhs var\n", SCIPconsGetName(cons));
1647 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing all lhs variables and tightening lower bound of rhs var\n", SCIPconsGetName(cons));
1652 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing all lhs variables\n", SCIPconsGetName(cons));
1659 SCIP_CALL( SCIPtightenVarUb(scip, consdata->rhsvar, sqrt(consdata->constant) / consdata->rhscoeff - consdata->rhsoffset, TRUE, iscutoff, &tightened) );
1662 SCIPdebugMsg(scip, "found problem infeasible after fixing all lhs variables in <%s> and tightening upper bound of rhs var\n", SCIPconsGetName(cons));
1666 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing all lhs variables and tightening upper bound of rhs var\n", SCIPconsGetName(cons));
1671 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing all lhs variables\n", SCIPconsGetName(cons));
1721 { /* constraint is |alpha*(x+beta)| <= sqrt((rhscoeff*rhsoffset)^2 - gamma), but x is probably multaggr. -> turn into ranged linear constraint */
1726 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, SCIPconsGetName(cons), 1, &consdata->vars[0], &consdata->coefs[0],
1727 -sqrt(consdata->rhscoeff * consdata->rhscoeff * consdata->rhsoffset * consdata->rhsoffset - consdata->constant) - consdata->coefs[0] * consdata->offsets[0],
1728 +sqrt(consdata->rhscoeff * consdata->rhscoeff * consdata->rhsoffset * consdata->rhsoffset - consdata->constant) - consdata->coefs[0] * consdata->offsets[0],
1739 { /* constraint is |alpha*(x+beta)| <= sqrt((rhscoeff*rhsoffset)^2 - gamma) -> propagate bounds */
1747 SCIPdebugMsg(scip, "found problem infeasible after fixing rhs and all except one lhs variables in <%s>\n", SCIPconsGetName(cons));
1760 SCIPdebugMsg(scip, "found problem infeasible after fixing rhs and all except one lhs variables and fixing remaining lhs var in <%s>\n", SCIPconsGetName(cons));
1764 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing rhs and all except one lhs variables and fixing remaining lhs var\n", SCIPconsGetName(cons));
1769 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing rhs and all except one lhs variables and fixing remaining lhs var\n", SCIPconsGetName(cons));
1775 SCIP_CALL( SCIPtightenVarLb(scip, consdata->vars[0], -rhs - consdata->offsets[0], TRUE, iscutoff, &tightened) );
1778 SCIPdebugMsg(scip, "found problem infeasible after fixing rhs and all except one lhs variables and tightening lower bound of remaining lhs var in <%s>\n", SCIPconsGetName(cons));
1784 SCIP_CALL( SCIPtightenVarUb(scip, consdata->vars[0], rhs - consdata->offsets[0], TRUE, iscutoff, &tightened) );
1787 SCIPdebugMsg(scip, "found problem infeasible after fixing rhs and all except one lhs variables and tightening upper bound of remaining lhs var in <%s>\n", SCIPconsGetName(cons));
1794 SCIPdebugMsg(scip, "remove redundant constraint <%s> after fixing rhs and all except one lhs variables and tightening bounds on remaining lhs var\n", SCIPconsGetName(cons));
1806 { /* one variable on lhs left and no constant, constraint becomes |alpha*(x+beta)| <= rhscoef*(rhsvar+rhsoffset) -> upgrade to two linear constraints */
1819 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, SCIPconsGetName(cons), 2, vars, coefs, -SCIPinfinity(scip), rhs,
1830 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, SCIPconsGetName(cons), 2, vars, coefs, -SCIPinfinity(scip), rhs,
1852 * Input is the data for a constraint \f$\sqrt{(\alpha_1(x_1+offset1))^2 + (\alpha_2(x_2+offset2))^2)} \leq \alpha_3(x_3+offset3)\f$.
1854 * Also x2 = NULL is allowed, in which case the second term is assumed to be constant, and \f$offset2 \neq 0\f$ is needed.
1890 assert(SCIPisGE(scip, SCIPconsIsLocal(cons) ? SCIPvarGetLbLocal(x3) : SCIPvarGetLbGlobal(x3), -offset3));
1897 alpha1, SCIPvarGetName(x1), offset1, alpha2, x2 ? SCIPvarGetName(x2) : "0", offset2, alpha3, SCIPvarGetName(x3), offset3);
1906 SCIP_CALL( SCIPcreateVar(scip, &avars[i], varname, -SCIPinfinity(scip), SCIPinfinity(scip), 0.0,
1911 SCIP_CALL( SCIPcreateVar(scip, &bvars[i], varname, -SCIPinfinity(scip), SCIPinfinity(scip), 0.0,
1929 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, alpha1*offset1, alpha1*offset1,
1948 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, -SCIPinfinity(scip), -alpha2*offset2,
1965 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, -alpha2*offset2, SCIPinfinity(scip),
1980 SCIP_CALL( SCIPtightenVarLb(scip, bvars[1], ABS(alpha2 * offset2), TRUE, &infeas, &tightened) );
1983 SCIPwarningMessage(scip, "creating glineur outer approximation of SOC3 constraint found problem infeasible.\n");
2020 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 3, vars, vals, -SCIPinfinity(scip), 0.0,
2039 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 3, vars, vals, 0.0, SCIPinfinity(scip),
2061 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 3, vars, vals, -alpha3*offset3, -alpha3*offset3,
2083 /** adds the linear outer-approximation of Ben-Tal and Nemirovski for a SOC constraint of dimension 3
2085 * Input is the data for a constraint \f$\sqrt{constant + (\alpha_1(x_1+offset1))^2 + (\alpha_2(x_2+offset2))^2)} \leq \alpha_3(x_3+offset3)\f$.
2087 * Also x2 = NULL is allowed, in which case the second term is assumed to be constant, and \f$offset2 \neq 0\f$ is needed.
2122 assert(SCIPisGE(scip, SCIPconsIsLocal(cons) ? SCIPvarGetLbLocal(x3) : SCIPvarGetLbGlobal(x3), -offset3));
2127 SCIPdebugMsg(scip, "Creating linear Ben-Tal Nemirovski outer-approximation for <%s>.\n", basename);
2153 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, alpha1 * offset1, SCIPinfinity(scip),
2169 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, -alpha1 * offset1, SCIPinfinity(scip),
2187 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, alpha2 * offset2, SCIPinfinity(scip),
2203 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, -alpha2 * offset2, SCIPinfinity(scip),
2258 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 3, vars, vals, 0.0, SCIPinfinity(scip),
2276 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 3, vars, vals, 0.0, SCIPinfinity(scip),
2294 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, -alpha3 * offset3, SCIPinfinity(scip),
2310 SCIP_CALL( SCIPcreateConsLinear(scip, &lincons, linname, 2, vars, vals, 0.0, SCIPinfinity(scip),
2356 SCIP_CALL( presolveCreateGlineurApproxDim3(scip, cons, x1, x2, x3, alpha1, alpha2, alpha3, offset1, offset2, offset3, N, basename, naddconss) );
2360 SCIP_CALL( presolveCreateBenTalNemirovskiApproxDim3(scip, cons, x1, x2, x3, alpha1, alpha2, alpha3, offset1, offset2, offset3, N, basename, naddconss) );
2366 /** adds linear outer approximation of Ben-Tal and Nemirovski for a constraint \f$\gamma + \sum_{i=1}^n (\alpha_i (x_i + \beta_i))^2 \leq (\alpha_{n+1} (x_{n+1} + \beta_{n+1}))^2\f$ to the LP
2384 int soc3_nr_auxvars, /**< number of auxiliary variables to use for a SOC3 constraint, or 0 if automatic */
2447 { /* create new constraint alpha_2 (x_2+beta2)^2 + auxvar^2 <= (rhscoeff * (rhsvar+rhsoffset))^2 */
2513 SCIP_Bool* redundant /**< buffer to indicate whether constraint was marked for deletion because of redundancy */
2584 SCIPdebugMsg(scip, "propagation found constraint <%s> infeasible: lhs = [%.15g,%.15g]-feastol-eps > rhs = [%.15g,%.15g]\n",
2593 SCIPdebugMsg(scip, "propagation found constraint <%s> redundant: lhs = [%.15g,%.15g] <= rhs = [%.15g,%.15g]\n",
2607 SCIP_CALL( SCIPtightenVarLb(scip, consdata->rhsvar, SCIPintervalGetInf(a), FALSE, &infeas, &tightened) );
2616 SCIPdebugMsg(scip, "propagation tightened bounds of rhs variable <%s> in constraint <%s>\n", SCIPvarGetName(consdata->rhsvar), SCIPconsGetName(cons));
2659 SCIP_CALL( SCIPtightenVarUb(scip, consdata->vars[i], SCIPintervalGetSup(c), FALSE, &infeas, &tightened) );
2668 SCIPdebugMsg(scip, "propagation tightened bounds of lhs variable <%s> in constraint <%s>\n", SCIPvarGetName(consdata->vars[i]), SCIPconsGetName(cons));
2678 SCIP_CALL( SCIPtightenVarLb(scip, consdata->vars[i], SCIPintervalGetInf(c), FALSE, &infeas, &tightened) );
2687 SCIPdebugMsg(scip, "propagation tightened bounds of lhs variable <%s> in constraint <%s>\n", SCIPvarGetName(consdata->vars[i]), SCIPconsGetName(cons));
2704 /** tries to adjust a solution such that it satisfies a given constraint by increasing the value for the constraints right hand side variable */
2782 SCIPdebugMsg(scip, "polishing solution for constraint <%s> was %ssuccessful\n", SCIPconsGetName(cons), *success ? "" : "not ");
2787 /** disaggregates a (sufficiently large) SOC constraint into smaller ones; for each term on the lhs we add a quadratic
2788 * constraint \f$(\alpha_i * (x_i + \beta_i))^2 \leq \alpha_{n+1} (x_{n+1} + \beta_{n+1})\, z_i\f$ and a single linear constraint
2789 * \f$\sum_i z_i \leq \alpha_{n+1}\, (x_{n+1} + \beta_{n+1})\f$; each quadratic constraint might be upgraded to a SOC; since the
2790 * violations of all quadratic constraints sum up we scale each constraint by the number of lhs terms + 1
2792 * @todo if rhsvar is NULL, then the disaggregation does not produce further cones. Should it then be upgraded
2794 * The code assumes now that the rhsvar is not NULL in order build the direct SOC -> SOC disaggregation
2832 SCIPdebugMsg(scip, "can not disaggregate too small soc constraint %s\n", SCIPconsGetName(cons));
2838 SCIPdebugMsg(scip, "can not disaggregate directly into a soc without rhs var %s\n", SCIPconsGetName(cons));
2855 * scaling give us: sqrt( (2 * scale * alpha_i * (x_i + beta_i))^2 + (scale * difvar)^2) <= scale * sumvar
2861 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "conedis_%s_%d", SCIPvarGetName(consdata->vars[i]), i);
2862 SCIP_CALL( SCIPcreateVar(scip, &disvars[i], name, 0.0, SCIPinfinity(scip), 0.0, SCIP_VARTYPE_CONTINUOUS, TRUE, FALSE,
2866 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "conedisS_%s_%d", SCIPvarGetName(consdata->vars[i]), i);
2867 SCIP_CALL( SCIPcreateVar(scip, &sumvars[i], name, 0.0, SCIPinfinity(scip), 0.0, SCIP_VARTYPE_CONTINUOUS, TRUE, FALSE,
2871 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "conedisD_%s_%d", SCIPvarGetName(consdata->vars[i]), i);
2872 SCIP_CALL( SCIPcreateVar(scip, &difvars[i], name, -SCIPinfinity(scip), SCIPinfinity(scip), 0.0,
2879 SCIP_CALL( SCIPmultiaggregateVar(scip, sumvars[i], 2, aggvars, scalars, constant, &infeas, success) );
2884 SCIP_CALL( SCIPmultiaggregateVar(scip, difvars[i], 2, aggvars, scalars, constant, &infeas, success) );
2896 SCIP_CALL( SCIPcreateConsBasicSOC(scip, &discons, name, 2, lhsvars, coefs, offsets, 0.0, sumvars[i], scale, 0.0) );
2923 SCIP_CALL( SCIPcreateVar(scip, &sumvars[ndisvars], name, 0.0, SCIPinfinity(scip), 0.0, SCIP_VARTYPE_CONTINUOUS, TRUE, FALSE,
2928 SCIP_CALL( SCIPcreateVar(scip, &difvars[ndisvars], name, -SCIPinfinity(scip), SCIPinfinity(scip), 0.0,
2935 SCIP_CALL( SCIPmultiaggregateVar(scip, sumvars[i], 2, aggvars, scalars, constant, &infeas, success) );
2939 SCIP_CALL( SCIPmultiaggregateVar(scip, difvars[i], 2, aggvars, scalars, constant, &infeas, success) );
2959 /* create linear constraint sum z_i <= alpha_{n+1} * (x_{n+1} + beta_{n+1}); first add extra coefficient for the rhs */
2964 SCIP_CALL( SCIPcreateConsBasicLinear(scip, &discons, name, ndisvars + 1, disvars, discoefs, -SCIPinfinity(scip),
3032 * (maybe the LP does not think that the cuts we add are violated, or we do ECP on a high-dimensional convex function)
3033 * in this case, check if some limit is hit or SCIP should stop for some other reason and terminate enforcement by creating a dummy node
3034 * (in optimized more, returning SCIP_INFEASIBLE in *result would be sufficient, but in debug mode this would give an assert in scip.c)
3035 * the reason to wait for 100 rounds is to avoid calls to SCIPisStopped in normal runs, which may be expensive
3046 SCIP_CALL( SCIPcreateChild(scip, &child, 1.0, SCIPnodeGetEstimate(SCIPgetCurrentNode(scip))) );
3062 SCIP_CALL( separatePoint(scip, conshdlr, conss, nconss, nusefulconss, sol, TRUE, &cutoff, &success) );
3084 assert(!redundant); /* constraint should not be violated and redundant simultaneously (unless solution is far out of bounds) */
3087 SCIPdebugMsg(scip, "enforced by %s\n", *result == SCIP_CUTOFF ? "cutting off node" : "reducing domain");
3092 SCIPwarningMessage(scip, "could not enforce feasibility by separating or branching; declaring solution with viol %g feasible\n", SCIPconsGetData(maxviolcons)->violation);
3107 * constraints with exactly on bilinear component containing nonnegative variables. For this we use the formula:
3111 * \left\| \left(\begin{array}{c} x \\ \frac{1}{2}(y - z)\end{array}\right) \right\| \leq \frac{1}{2}(y + z).
3114 * @todo implement more general hyperbolic upgrade, e.g., for -x^T x + yz >= 0 or x^T x <= ax + by + cyz
3118 {
3163 SCIPdebugMsg(scip, "upgradeConsQuadratic called for constraint <%s>\n", SCIPconsGetName(cons));
3213 if ( SCIPisNegative(scip, SCIPvarGetLbGlobal(bilinvar1)) || SCIPisNegative(scip, SCIPvarGetLbGlobal(bilinvar2)) )
3233 /* check that bilinear terms do not appear in the rest and quadratic terms have postive sqrcoef have no lincoef */
3294 && SCIPisGT(scip, SCIPcomputeVarUbGlobal(scip, term->var), -term->lincoef / (2 * term->sqrcoef))) )
3306 if( SCIPisGE(scip, SCIPcomputeVarLbGlobal(scip, term->var), -term->lincoef / (2*term->sqrcoef)) )
3328 SCIPdebugMsg(scip, "found hyberbolic quadratic constraint <%s> to be SOC\n", SCIPconsGetName(cons));
3330 /* check if upgdconss is long enough to store upgrade constraints: we need two if we will have a quadratic
3348 SCIP_CALL( SCIPcreateVar(scip, &auxvardiff, name, -SCIPinfinity(scip), SCIPinfinity(scip), 0.0,
3403 SCIPgetNLinearVarsQuadratic(scip, cons), SCIPgetLinearVarsQuadratic(scip, cons), SCIPgetCoefsLinearVarsQuadratic(scip, cons),
3423 { /* found SOC constraint, so upgrade to SOC constraint(s) (below) and relax right hand side */
3424 SCIPdebugMsg(scip, "found right hand side of constraint <%s> to be SOC\n", SCIPconsGetName(cons));
3448 SCIPgetNLinearVarsQuadratic(scip, cons), SCIPgetLinearVarsQuadratic(scip, cons), SCIPgetCoefsLinearVarsQuadratic(scip, cons),
3458 { /* if the first failed, try if constraint on left hand side is SOC (using negated coefficients) */
3468 /* if there is a linear variable that is still considered as quadratic (constraint probably not presolved yet),
3499 && SCIPisGT(scip, SCIPcomputeVarUbGlobal(scip, term->var), -term->lincoef / (2 * term->sqrcoef))) )
3511 if( SCIPisGE(scip, SCIPcomputeVarLbGlobal(scip, term->var), -term->lincoef / (2*term->sqrcoef)) )
3520 SCIPdebugMsg(scip, "found left hand side of constraint <%s> to be SOC\n", SCIPconsGetName(cons));
3544 SCIPgetNLinearVarsQuadratic(scip, cons), SCIPgetLinearVarsQuadratic(scip, cons), SCIPgetCoefsLinearVarsQuadratic(scip, cons),
3600 * probably cons_quadratic did not yet had the chance to remove/replace this variable (see also #2352)
3632 SCIPdebugMsg(scip, "Failed to compute eigenvalues and eigenvectors for constraint <%s>.\n", SCIPconsGetName(cons));
3694 /* we have lhsconstant + x^t A x + b x <= 0 and A has a single negative eigenvalue; try to build soc */
3717 /* the constraint can only be a soc if the resulting rhs var does not change var; the rhs var is going to be a
3772 /* since we are just interested in obtaining an interval that contains the real bounds and is tight enough so
3773 * that we can identify that the rhsvar does not change sign, we swap the bounds in case of numerical troubles
3801 SCIPdebugMsg(scip, "found right hand side of constraint <%s> to be SOC\n", SCIPconsGetName(cons));
3827 SCIP_CALL( SCIPmultiaggregateVar(scip, lhsvars[lhsnvars], nquadvars, quadvars, &(a[i * nquadvars]),
3832 SCIPdebugMsg(scip, "Problem with aggregation while trying to upgrade <%s>.\n", SCIPconsGetName(cons) );
3849 SCIP_CALL( SCIPmultiaggregateVar(scip, rhsvar, nquadvars, quadvars, &(a[negeigpos * nquadvars]),
3854 SCIPdebugMsg(scip, "Problem with aggregation while trying to upgrade <%s>.\n", SCIPconsGetName(cons) );
3887 SCIPgetNLinearVarsQuadratic(scip, cons), SCIPgetLinearVarsQuadratic(scip, cons), SCIPgetCoefsLinearVarsQuadratic(scip, cons),
3899 SCIPgetNLinearVarsQuadratic(scip, cons), SCIPgetLinearVarsQuadratic(scip, cons), SCIPgetCoefsLinearVarsQuadratic(scip, cons),
3955 /** destructor of constraint handler to free constraint handler data (called when SCIP is exiting) */
3958 {
4002 /** deinitialization method of constraint handler (called before transformed problem is freed) */
4021 /** presolving deinitialization method of constraint handler (called after presolving has been finished) */
4045 /** solving process initialization method of constraint handler (called when branch and bound process is about to begin) */
4048 {
4088 SCIP_CALL( SCIPcatchEvent(scip, SCIP_EVENTTYPE_SOLFOUND, eventhdlr, (SCIP_EVENTDATA*)conshdlr, &conshdlrdata->newsoleventfilterpos) );
4100 /** solving process deinitialization method of constraint handler (called before branch and bound process data is freed) */
4103 {
4122 SCIP_CALL( SCIPdropEvent(scip, SCIP_EVENTTYPE_SOLFOUND, eventhdlr, (SCIP_EVENTDATA*)conshdlr, conshdlrdata->newsoleventfilterpos) );
4145 {
4199 {
4236 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &consdata->coefs, sourcedata->coefs, consdata->nvars) );
4237 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &consdata->offsets, sourcedata->offsets, consdata->nvars) );
4267 {
4287 /* at root, check if we want to solve the NLP relaxation and use its solutions as reference point
4288 * if there is something convex, then linearizing in the solution of the NLP relaxation can be very useful
4291 (SCIPgetNContVars(scip) >= conshdlrdata->sepanlpmincont * SCIPgetNVars(scip) || (SCIPgetLPSolstat(scip) == SCIP_LPSOLSTAT_UNBOUNDEDRAY && conshdlrdata->sepanlpmincont <= 1.0)) &&
4358 SCIP_CALL( addLinearizationCuts(scip, conshdlr, conss, nconss, nlpsol, &lpsolseparated, SCIPgetSepaMinEfficacy(scip), &cutoff) );
4368 /* if a cut that separated the LP solution was added, then return, otherwise continue with usual separation in LP solution */
4379 /* if we do not want to try solving the NLP, or have no NLP, or have no NLP solver, or solving the NLP failed,
4380 * or separating with NLP solution as reference point failed, then try (again) with LP solution as reference point
4383 SCIP_CALL( separatePoint(scip, conshdlr, conss, nconss, nusefulconss, NULL, FALSE, &cutoff, &sepasuccess) );
4396 {
4412 SCIP_CALL( separatePoint(scip, conshdlr, conss, nconss, nusefulconss, sol, FALSE, &cutoff, &sepasuccess) );
4445 {
4466 {
4538 else /* if locks of the variable are bad or rhs is multi-aggregated, disable solution polishing */
4544 /* if solution polishing is off and there is no NLP heuristic or we just check the LP solution,
4545 * then there is no need to check remaining constraints (NLP heuristic will pick up LP solution anyway) */
4562 else if( conshdlrdata->subnlpheur != NULL && sol != NULL && *result == SCIP_INFEASIBLE && !SCIPisInfinity(scip, maxviol) )
4574 {
4589 SCIP_CALL( propagateBounds(scip, conss[c], &propresult, &nchgbds, &redundant) ); /*lint !e613*/
4601 {
4624 SCIP_CALL( presolveRemoveFixedVariables(scip, conshdlr, conss[c], ndelconss, nupgdconss, nchgbds, nfixedvars, &iscutoff, &isdeleted) ); /*lint !e613*/
4639 SCIP_CALL( presolveCreateOuterApprox(scip, consdata->nvars, consdata->vars, consdata->coefs, consdata->offsets,
4640 consdata->rhsvar, consdata->rhscoeff, consdata->rhscoeff, consdata->constant, SCIPconsGetName(conss[c]), conss[c],
4660 SCIPdebugMsg(scip, "infeasible in presolve due to propagation for constraint %s\n", SCIPconsGetName(conss[c])); /*lint !e613*/
4675 SCIP_CALL( disaggregate(scip, conss[c], consdata, naddconss, ndelconss, &success) ); /*lint !e613*/
4695 {
4713 SCIP_CALL( SCIPaddVarLocksType(scip, consdata->vars[i], locktype, nlockspos + nlocksneg, nlockspos + nlocksneg) );
4719 SCIP_CALL( SCIPaddVarLocksType(scip, consdata->rhsvar, locktype, consdata->rhscoeff > 0.0 ? nlockspos : nlocksneg, consdata->rhscoeff > 0.0 ? nlocksneg : nlockspos) );
4728 {
4771 {
4796 SCIP_CALL( SCIPgetVarCopy(sourcescip, scip, consdata->vars[i], &vars[i], varmap, consmap, global, valid) );
4803 SCIP_CALL( SCIPgetVarCopy(sourcescip, scip, consdata->rhsvar, &rhsvar, varmap, consmap, global, valid) );
4813 initial, separate, enforce, check, propagate, local, modifiable, dynamic, removable) ); /*lint !e644 */
4849 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected 'sqrt( ' at begin of soc constraint string '%s'\n", str);
4885 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected coefficient at begin of '%s'\n", str);
4912 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected offset at begin of '%s'\n", str);
4920 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected '))^2' at begin of '%s'\n", str);
4941 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected ') <=' at begin of '%s'\n", str);
4957 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected coefficient at begin of '%s'\n", str);
5003 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "expected offset at begin of '%s'\n", str);
5032 SCIP_CALL( SCIPcreateConsSOC(scip, cons, name, nvars, vars, coefs, offsets, constant, rhsvar, rhscoef, rhsoffset,
5033 initial, separate, enforce, check, propagate, local, modifiable, dynamic, removable) ); /*lint !e644 */
5064 /** constraint method of constraint handler which returns the number of variable (if possible) */
5127 SCIP_CALL( SCIPsetConshdlrPresol(scip, conshdlr, consPresolSOC, CONSHDLR_MAXPREROUNDS, CONSHDLR_PRESOLTIMING) );
5129 SCIP_CALL( SCIPsetConshdlrProp(scip, conshdlr, consPropSOC, CONSHDLR_PROPFREQ, CONSHDLR_DELAYPROP, CONSHDLR_PROP_TIMING) );
5130 SCIP_CALL( SCIPsetConshdlrSepa(scip, conshdlr, consSepalpSOC, consSepasolSOC, CONSHDLR_SEPAFREQ,
5138 SCIP_CALL( SCIPincludeQuadconsUpgrade(scip, upgradeConsQuadratic, QUADCONSUPGD_PRIORITY, TRUE, CONSHDLR_NAME) );
5143 "whether the reference point of a cut should be projected onto the feasible set of the SOC constraint",
5147 "number of auxiliary variables to use when creating a linear outer approx. of a SOC3 constraint; 0 to turn off",
5167 "whether to try to make solutions feasible in check by shifting the variable on the right hand side",
5171 "which formulation to use when adding a SOC constraint to the NLP (a: automatic, q: nonconvex quadratic form, s: convex sqrt form, e: convex exponential-sqrt form, d: convex division form)",
5175 "minimal required fraction of continuous variables in problem to use solution of NLP relaxation in root for separation",
5195 * @note the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
5203 SCIP_Real* coefs, /**< array with coefficients of left hand side variables (alpha_i), or NULL if all 1.0 */
5252 assert(rhsvar == NULL || rhscoeff <= 0.0 || SCIPisGE(scip, local ? SCIPcomputeVarLbLocal(scip, rhsvar) : SCIPcomputeVarLbGlobal(scip, rhsvar), -rhsoffset));
5253 assert(rhsvar == NULL || rhscoeff >= 0.0 || SCIPisLE(scip, local ? SCIPcomputeVarUbLocal(scip, rhsvar) : SCIPcomputeVarUbGlobal(scip, rhsvar), -rhsoffset));
5307 SCIP_CALL( SCIPcreateCons(scip, cons, name, conshdlr, consdata, initial, separate, enforce, check, propagate,
5324 * @note the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
5332 SCIP_Real* coefs, /**< array with coefficients of left hand side variables (alpha_i), or NULL if all 1.0 */
5396 /** Gets the coefficients of the variables on the left hand side of a SOC constraint, or NULL if all are equal to 1.0. */
5408 /** Gets the offsets of the variables on the left hand side of a SOC constraint, or NULL if all are equal to 0.0. */
void SCIPsortRealInt(SCIP_Real *realarray, int *intarray, int len)
SCIP_VAR ** SCIPgetLinearVarsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14868
void SCIPintervalDivScalar(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_Real operand2)
Definition: intervalarith.c:1062
static SCIP_RETCODE catchRhsVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons)
Definition: cons_soc.c:201
#define SCIPreallocBlockMemoryArray(scip, ptr, oldnum, newnum)
Definition: scip_mem.h:105
SCIP_RETCODE SCIPsetConshdlrDelete(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDELETE((*consdelete)))
Definition: scip_cons.c:640
Definition: type_result.h:33
SCIP_VAR ** SCIPgetLhsVarsSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5386
Definition: type_nlpi.h:65
SCIP_RETCODE SCIPchgVarLbGlobal(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_var.c:4878
void SCIPintervalSubScalar(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_Real operand2)
Definition: intervalarith.c:712
Definition: type_result.h:37
static SCIP_RETCODE separatePoint(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS **conss, int nconss, int nusefulconss, SCIP_SOL *sol, SCIP_Bool inenforcement, SCIP_Bool *cutoff, SCIP_Bool *success)
Definition: cons_soc.c:1170
primal heuristic that tries a given solution
SCIP_RETCODE SCIPtightenVarLb(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5119
static SCIP_RETCODE enforceConstraint(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS **conss, int nconss, int nusefulconss, SCIP_SOL *sol, SCIP_RESULT *result)
Definition: cons_soc.c:2996
Definition: intervalarith.h:37
SCIP_Bool SCIPisFeasEQ(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:851
public methods for SCIP parameter handling
static SCIP_RETCODE generateSparseCut(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_ROWPREP **rowprep, SCIP_Real minefficacy)
Definition: cons_soc.c:1060
methods to interpret (evaluate) an expression tree "fast"
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)
Definition: cons_soc.c:5327
SCIP_RETCODE SCIPsetConshdlrTrans(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSTRANS((*constrans)))
Definition: scip_cons.c:663
public methods for branch and bound tree
Definition: type_var.h:40
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)
Definition: cons_linear.c:17725
int SCIPnlrowSearchQuadVar(SCIP_NLROW *nlrow, SCIP_VAR *var)
Definition: nlp.c:3296
Definition: struct_scip.h:58
public methods for memory management
SCIP_RETCODE SCIPcatchVarEvent(SCIP *scip, SCIP_VAR *var, SCIP_EVENTTYPE eventtype, SCIP_EVENTHDLR *eventhdlr, SCIP_EVENTDATA *eventdata, int *filterpos)
Definition: scip_event.c:422
SCIP_CONSHDLR * SCIPfindConshdlr(SCIP *scip, const char *name)
Definition: scip_cons.c:954
#define SCIPallocClearBufferArray(scip, ptr, num)
Definition: scip_mem.h:132
SCIP_RETCODE SCIPincludeQuadconsUpgrade(SCIP *scip, SCIP_DECL_QUADCONSUPGD((*quadconsupgd)), int priority, SCIP_Bool active, const char *conshdlrname)
Definition: cons_quadratic.c:14187
SCIP_RETCODE SCIPsetConshdlrGetVars(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETVARS((*consgetvars)))
Definition: scip_cons.c:893
static SCIP_RETCODE generateCutProjectedPoint(SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_ROWPREP **rowprep)
Definition: cons_soc.c:991
SCIP_Real * SCIPgetLhsOffsetsSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5410
SCIP_RETCODE SCIPsetConshdlrEnforelax(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSENFORELAX((*consenforelax)))
Definition: scip_cons.c:385
SCIP_RETCODE SCIPresetConsAge(SCIP *scip, SCIP_CONS *cons)
Definition: scip_cons.c:1826
Definition: type_result.h:49
SCIP_RETCODE SCIPcleanupRowprep(SCIP *scip, SCIP_ROWPREP *rowprep, SCIP_SOL *sol, SCIP_Real maxcoefrange, SCIP_Real minviol, SCIP_Real *coefrange, SCIP_Real *viol)
Definition: cons_quadratic.c:16673
SCIP_RETCODE SCIPchgNlRowRhs(SCIP *scip, SCIP_NLROW *nlrow, SCIP_Real rhs)
Definition: scip_nlp.c:1395
SCIP_Bool SCIPisGE(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:568
internal methods for NLPI solver interfaces
SCIP_RETCODE SCIPaddRowprepTerm(SCIP *scip, SCIP_ROWPREP *rowprep, SCIP_VAR *var, SCIP_Real coef)
Definition: cons_quadratic.c:16075
SCIP_RETCODE SCIPchgVarLbNode(SCIP *scip, SCIP_NODE *node, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_var.c:4782
SCIP_RETCODE SCIPincludeEventhdlrBasic(SCIP *scip, SCIP_EVENTHDLR **eventhdlrptr, const char *name, const char *desc, SCIP_DECL_EVENTEXEC((*eventexec)), SCIP_EVENTHDLRDATA *eventhdlrdata)
Definition: scip_event.c:172
SCIP_RETCODE SCIPexprCreateMonomial(BMS_BLKMEM *blkmem, SCIP_EXPRDATA_MONOMIAL **monomial, SCIP_Real coef, int nfactors, int *childidxs, SCIP_Real *exponents)
Definition: expr.c:7035
Definition: struct_var.h:198
SCIP_RETCODE SCIPgetTransformedVar(SCIP *scip, SCIP_VAR *var, SCIP_VAR **transvar)
Definition: scip_var.c:1442
SCIP_RETCODE SCIPparseVarName(SCIP *scip, const char *str, SCIP_VAR **var, char **endptr)
Definition: scip_var.c:523
Definition: cons_quadratic.h:104
void SCIPintervalSetRoundingMode(SCIP_ROUNDMODE roundmode)
Definition: intervalarith.c:191
SCIP_CONS ** SCIPconshdlrGetConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4563
SCIP_RETCODE SCIPnlpiAddConstraints(SCIP_NLPI *nlpi, SCIP_NLPIPROBLEM *problem, int nconss, const SCIP_Real *lhss, const SCIP_Real *rhss, const int *nlininds, int *const *lininds, SCIP_Real *const *linvals, const int *nquadelems, SCIP_QUADELEM *const *quadelems, int *const *exprvaridxs, SCIP_EXPRTREE *const *exprtrees, const char **names)
Definition: nlpi.c:268
SCIP_RETCODE SCIPaddToNlpiProblemSOC(SCIP *scip, SCIP_CONS *cons, SCIP_NLPI *nlpi, SCIP_NLPIPROBLEM *nlpiprob, SCIP_HASHMAP *scipvar2nlpivar, SCIP_Bool names)
Definition: cons_soc.c:5472
SCIP_RETCODE SCIPincludeConshdlrBasic(SCIP *scip, SCIP_CONSHDLR **conshdlrptr, const char *name, const char *desc, int enfopriority, int chckpriority, int eagerfreq, SCIP_Bool needscons, SCIP_DECL_CONSENFOLP((*consenfolp)), SCIP_DECL_CONSENFOPS((*consenfops)), SCIP_DECL_CONSCHECK((*conscheck)), SCIP_DECL_CONSLOCK((*conslock)), SCIP_CONSHDLRDATA *conshdlrdata)
Definition: scip_cons.c:243
SCIP_RETCODE SCIPaddQuadElementToNlRow(SCIP *scip, SCIP_NLROW *nlrow, SCIP_QUADELEM quadelem)
Definition: scip_nlp.c:1589
SCIP_RETCODE SCIPunmarkConsPropagate(SCIP *scip, SCIP_CONS *cons)
Definition: scip_cons.c:2056
SCIP_RETCODE SCIPcreateVarBasic(SCIP *scip, SCIP_VAR **var, const char *name, SCIP_Real lb, SCIP_Real ub, SCIP_Real obj, SCIP_VARTYPE vartype)
Definition: scip_var.c:184
void SCIPintervalSetBounds(SCIP_INTERVAL *resultant, SCIP_Real inf, SCIP_Real sup)
Definition: intervalarith.c:359
public methods for problem variables
SCIP_RETCODE SCIPexprtreeSetVars(SCIP_EXPRTREE *tree, int nvars, SCIP_VAR **vars)
Definition: nlp.c:112
static SCIP_RETCODE dropLhsVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons, int varidx)
Definition: cons_soc.c:266
SCIP_RETCODE SCIPtightenVarUb(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5235
Definition: type_expr.h:100
Definition: type_expr.h:40
SCIP_RETCODE SCIPsetConshdlrSepa(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSSEPALP((*conssepalp)), SCIP_DECL_CONSSEPASOL((*conssepasol)), int sepafreq, int sepapriority, SCIP_Bool delaysepa)
Definition: scip_cons.c:297
Definition: type_result.h:40
SCIP_EVENTHDLR * SCIPfindEventhdlr(SCIP *scip, const char *name)
Definition: scip_event.c:302
static SCIP_RETCODE dropVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons)
Definition: cons_soc.c:318
SCIP_Bool SCIPisEQ(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:516
SCIP_RETCODE SCIPcreateLPSol(SCIP *scip, SCIP_SOL **sol, SCIP_HEUR *heur)
Definition: scip_sol.c:419
SCIP_RETCODE SCIPexprtreeCreate(BMS_BLKMEM *blkmem, SCIP_EXPRTREE **tree, SCIP_EXPR *root, int nvars, int nparams, SCIP_Real *params)
Definition: expr.c:8771
constraint handler for second order cone constraints
static SCIP_RETCODE catchLhsVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons, int varidx)
Definition: cons_soc.c:169
public methods for SCIP variables
void SCIPwarningMessage(SCIP *scip, const char *formatstr,...)
Definition: scip_message.c:203
SCIP_RETCODE SCIPaddIntParam(SCIP *scip, const char *name, const char *desc, int *valueptr, SCIP_Bool isadvanced, int defaultvalue, int minvalue, int maxvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: scip_param.c:155
SCIP_RETCODE SCIPgetTransformedVars(SCIP *scip, int nvars, SCIP_VAR **vars, SCIP_VAR **transvars)
Definition: scip_var.c:1483
public methods for separator plugins
SCIP_RETCODE SCIPaddLinearCoefToNlRow(SCIP *scip, SCIP_NLROW *nlrow, SCIP_VAR *var, SCIP_Real val)
Definition: scip_nlp.c:1441
SCIP_RETCODE SCIPsetConshdlrParse(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPARSE((*consparse)))
Definition: scip_cons.c:870
SCIP_Real SCIPgetLhsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14982
Definition: type_expr.h:55
void SCIPinfoMessage(SCIP *scip, FILE *file, const char *formatstr,...)
Definition: scip_message.c:279
Definition: type_expr.h:46
Definition: struct_tree.h:132
SCIP_RETCODE SCIPcreateCons(SCIP *scip, SCIP_CONS **cons, const char *name, SCIP_CONSHDLR *conshdlr, SCIP_CONSDATA *consdata, 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)
Definition: scip_cons.c:1011
SCIP_Real SCIPcomputeVarUbGlobal(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:6394
SCIP_Real SCIPcomputeVarLbLocal(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:6415
Definition: type_nlpi.h:67
public methods for numerical tolerances
int SCIPgetNQuadVarTermsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14895
static SCIP_RETCODE polishSolution(SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_Bool *success)
Definition: cons_soc.c:2707
public methods for expressions, expression trees, expression graphs, and related stuff ...
public methods for querying solving statistics
Definition: struct_sol.h:63
SCIP_RETCODE SCIPaddVarLocksType(SCIP *scip, SCIP_VAR *var, SCIP_LOCKTYPE locktype, int nlocksdown, int nlocksup)
Definition: scip_var.c:4198
int SCIPgetNBilinTermsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14956
public methods for the branch-and-bound tree
SCIP_RETCODE SCIPheurPassSolTrySol(SCIP *scip, SCIP_HEUR *heur, SCIP_SOL *sol)
Definition: heur_trysol.c:242
Definition: type_expr.h:47
Definition: type_expr.h:49
SCIP_RETCODE SCIPsetConshdlrInitsol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITSOL((*consinitsol)))
Definition: scip_cons.c:506
#define SCIPduplicateBlockMemoryArray(scip, ptr, source, num)
Definition: scip_mem.h:111
static SCIP_RETCODE presolveCreateGlineurApproxDim3(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *x1, SCIP_VAR *x2, SCIP_VAR *x3, SCIP_Real alpha1, SCIP_Real alpha2, SCIP_Real alpha3, SCIP_Real offset1, SCIP_Real offset2, SCIP_Real offset3, int N, const char *basename, int *naddconss)
Definition: cons_soc.c:1858
SCIP_RETCODE SCIPmultiaggregateVar(SCIP *scip, SCIP_VAR *var, int naggvars, SCIP_VAR **aggvars, SCIP_Real *scalars, SCIP_Real constant, SCIP_Bool *infeasible, SCIP_Bool *aggregated)
Definition: scip_var.c:8421
Definition: struct_misc.h:127
public methods for managing constraints
static SCIP_RETCODE dropRhsVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons)
Definition: cons_soc.c:294
void SCIPfreeRowprep(SCIP *scip, SCIP_ROWPREP **rowprep)
Definition: cons_quadratic.c:15982
static SCIP_RETCODE computeViolation(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons, SCIP_SOL *sol)
Definition: cons_soc.c:754
SCIP_RETCODE SCIPcreateSolCopy(SCIP *scip, SCIP_SOL **sol, SCIP_SOL *sourcesol)
Definition: scip_sol.c:667
static SCIP_RETCODE presolveCreateOuterApproxDim3(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *x1, SCIP_VAR *x2, SCIP_VAR *x3, SCIP_Real alpha1, SCIP_Real alpha2, SCIP_Real alpha3, SCIP_Real offset1, SCIP_Real offset2, SCIP_Real offset3, int N, SCIP_Bool glineur, const char *basename, int *naddconss)
Definition: cons_soc.c:2337
void SCIPmarkRowNotRemovableLocal(SCIP *scip, SCIP_ROW *row)
Definition: scip_lp.c:1774
SCIP_RETCODE SCIPsetConshdlrCopy(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), SCIP_DECL_CONSCOPY((*conscopy)))
Definition: scip_cons.c:409
SCIP_RETCODE SCIPaddLinearConsToNlpHeurSubNlp(SCIP *scip, SCIP_HEUR *heur, SCIP_Bool addcombconss, SCIP_Bool addcontconss)
Definition: heur_subnlp.c:2417
Definition: type_nlpi.h:63
Definition: type_expr.h:51
SCIP_RETCODE SCIPfindQuadVarTermQuadratic(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, int *pos)
Definition: cons_quadratic.c:14938
SCIP_RETCODE SCIPensureRowprepSize(SCIP *scip, SCIP_ROWPREP *rowprep, int size)
Definition: cons_quadratic.c:16024
Definition: type_result.h:35
Definition: struct_cons.h:37
SCIP_RETCODE SCIPgetNlRowSOC(SCIP *scip, SCIP_CONS *cons, SCIP_NLROW **nlrow)
Definition: cons_soc.c:5349
interval arithmetics for provable bounds
SCIP_Real SCIPgetRowprepViolation(SCIP *scip, SCIP_ROWPREP *rowprep, SCIP_SOL *sol)
Definition: cons_quadratic.c:16158
SCIP_Bool SCIPisLT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:529
Definition: struct_cons.h:117
SCIP_RETCODE SCIPdelConsLocal(SCIP *scip, SCIP_CONS *cons)
Definition: scip_prob.c:3527
public methods for event handler plugins and event handlers
SCIP_Real SCIPintervalGetInf(SCIP_INTERVAL interval)
Definition: intervalarith.c:331
SCIP_RETCODE SCIPgetSolVals(SCIP *scip, SCIP_SOL *sol, int nvars, SCIP_VAR **vars, SCIP_Real *vals)
Definition: scip_sol.c:1447
static SCIP_RETCODE propagateBounds(SCIP *scip, SCIP_CONS *cons, SCIP_RESULT *result, int *nchgbds, SCIP_Bool *redundant)
Definition: cons_soc.c:2509
SCIP_RETCODE SCIPreleaseNlRow(SCIP *scip, SCIP_NLROW **nlrow)
Definition: scip_nlp.c:1350
SCIP_RETCODE SCIPgetProbvarSum(SCIP *scip, SCIP_VAR **var, SCIP_Real *scalar, SCIP_Real *constant)
Definition: scip_var.c:1796
SCIP_Real * SCIPgetCoefsLinearVarsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14882
Definition: type_result.h:36
SCIP_RETCODE SCIPunlockVarCons(SCIP *scip, SCIP_VAR *var, SCIP_CONS *cons, SCIP_Bool lockdown, SCIP_Bool lockup)
Definition: scip_var.c:4374
SCIP_RETCODE SCIPmarkDoNotMultaggrVar(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:8524
void SCIPaddRowprepSide(SCIP_ROWPREP *rowprep, SCIP_Real side)
Definition: cons_quadratic.c:16133
static SCIP_RETCODE computeViolations(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS **conss, int nconss, SCIP_SOL *sol, SCIP_CONS **maxviolcons)
Definition: cons_soc.c:820
SCIP_RETCODE SCIPsetConshdlrFree(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSFREE((*consfree)))
Definition: scip_cons.c:434
static SCIP_RETCODE presolveCreateOuterApprox(SCIP *scip, int nlhsvars, SCIP_VAR **lhsvars, SCIP_Real *lhscoefs, SCIP_Real *lhsoffsets, SCIP_VAR *rhsvar, SCIP_Real rhscoeff, SCIP_Real rhsoffset, SCIP_Real constant, const char *basename, SCIP_CONS *origcons, int soc3_nr_auxvars, SCIP_Bool glineur, int *naddconss)
Definition: cons_soc.c:2373
constraint handler for quadratic constraints
SCIP_CONSHDLRDATA * SCIPconshdlrGetData(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4211
SCIP_RETCODE SCIPcreateRowprep(SCIP *scip, SCIP_ROWPREP **rowprep, SCIP_SIDETYPE sidetype, SCIP_Bool local)
Definition: cons_quadratic.c:15962
SCIP_RETCODE SCIPmarkConsPropagate(SCIP *scip, SCIP_CONS *cons)
Definition: scip_cons.c:2028
SCIP_RETCODE SCIPsetNLPInitialGuessSol(SCIP *scip, SCIP_SOL *sol)
Definition: scip_nlp.c:612
static SCIP_RETCODE presolveRemoveFixedVariables(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons, int *ndelconss, int *nupgdconss, int *nchgbds, int *nfixedvars, SCIP_Bool *iscutoff, SCIP_Bool *isdeleted)
Definition: cons_soc.c:1421
Definition: type_retcode.h:33
SCIP_RETCODE SCIPcreateChild(SCIP *scip, SCIP_NODE **node, SCIP_Real nodeselprio, SCIP_Real estimate)
Definition: scip_branch.c:959
public methods for problem copies
public methods for primal CIP solutions
static SCIP_RETCODE generateCutSol(SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol, SCIP_ROWPREP **rowprep)
Definition: cons_soc.c:859
static SCIP_RETCODE disaggregate(SCIP *scip, SCIP_CONS *cons, SCIP_CONSDATA *consdata, int *naddconss, int *ndelconss, SCIP_Bool *success)
Definition: cons_soc.c:2798
SCIP_Real SCIPcomputeVarUbLocal(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:6436
SCIP_RETCODE SCIPexprCreatePolynomial(BMS_BLKMEM *blkmem, SCIP_EXPR **expr, int nchildren, SCIP_EXPR **children, int nmonomials, SCIP_EXPRDATA_MONOMIAL **monomials, SCIP_Real constant, SCIP_Bool copymonomials)
Definition: expr.c:6632
SCIP_Bool SCIPisFeasLE(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:877
Definition: type_result.h:42
void SCIPintervalSet(SCIP_INTERVAL *resultant, SCIP_Real value)
Definition: intervalarith.c:347
void SCIPverbMessage(SCIP *scip, SCIP_VERBLEVEL msgverblevel, FILE *file, const char *formatstr,...)
Definition: scip_message.c:296
SCIP_RETCODE SCIPaddRow(SCIP *scip, SCIP_ROW *row, SCIP_Bool forcecut, SCIP_Bool *infeasible)
Definition: scip_cut.c:294
SCIP_BILINTERM * SCIPgetBilinTermsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14970
Definition: struct_heur.h:79
SCIP_RETCODE LapackDsyev(SCIP_Bool computeeigenvectors, int N, SCIP_Real *a, SCIP_Real *w)
Definition: nlpi_ipopt.cpp:2864
Definition: type_lp.h:34
public methods for primal heuristic plugins and divesets
public methods for constraint handler plugins and constraints
public methods for NLP management
Definition: type_retcode.h:34
SCIP_Real SCIPgetRhsOffsetSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5458
Definition: struct_expr.h:46
SCIP_Real SCIPgetRhsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14994
Definition: cons_soc.c:104
Ipopt NLP interface.
SCIP_RETCODE SCIPsetSolVal(SCIP *scip, SCIP_SOL *sol, SCIP_VAR *var, SCIP_Real val)
Definition: scip_sol.c:1270
public data structures and miscellaneous methods
Definition: type_expr.h:85
SCIP_RETCODE SCIPcatchEvent(SCIP *scip, SCIP_EVENTTYPE eventtype, SCIP_EVENTHDLR *eventhdlr, SCIP_EVENTDATA *eventdata, int *filterpos)
Definition: scip_event.c:354
Definition: type_expr.h:39
Definition: type_message.h:43
static SCIP_RETCODE generateCutPoint(SCIP *scip, SCIP_CONS *cons, SCIP_Real *x, SCIP_ROWPREP **rowprep)
Definition: cons_soc.c:904
SCIP_RETCODE SCIPprintCons(SCIP *scip, SCIP_CONS *cons, FILE *file)
Definition: scip_cons.c:2550
SCIP_Bool SCIPstrToRealValue(const char *str, SCIP_Real *value, char **endptr)
Definition: misc.c:10354
void SCIPintervalSquareRoot(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand)
Definition: intervalarith.c:1361
Definition: struct_lp.h:192
void SCIPintervalSquare(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand)
Definition: intervalarith.c:1289
Definition: cons_quadratic.h:121
SCIP_Real SCIPgetCutEfficacy(SCIP *scip, SCIP_SOL *sol, SCIP_ROW *cut)
Definition: scip_cut.c:138
static SCIP_RETCODE createNlRow(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons_soc.c:374
SCIP_RETCODE SCIPdropEvent(SCIP *scip, SCIP_EVENTTYPE eventtype, SCIP_EVENTHDLR *eventhdlr, SCIP_EVENTDATA *eventdata, int filterpos)
Definition: scip_event.c:388
SCIP_RETCODE SCIPexprCreate(BMS_BLKMEM *blkmem, SCIP_EXPR **expr, SCIP_EXPROP op,...)
Definition: expr.c:5973
public methods for cuts and aggregation rows
SCIP_Real SCIPcomputeVarLbGlobal(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:6373
SCIP_RETCODE SCIPdropVarEvent(SCIP *scip, SCIP_VAR *var, SCIP_EVENTTYPE eventtype, SCIP_EVENTHDLR *eventhdlr, SCIP_EVENTDATA *eventdata, int filterpos)
Definition: scip_event.c:468
SCIP_RETCODE SCIPcreateVar(SCIP *scip, SCIP_VAR **var, const char *name, SCIP_Real lb, SCIP_Real ub, SCIP_Real obj, SCIP_VARTYPE vartype, SCIP_Bool initial, SCIP_Bool removable, SCIP_DECL_VARDELORIG((*vardelorig)), SCIP_DECL_VARTRANS((*vartrans)), SCIP_DECL_VARDELTRANS((*vardeltrans)), SCIP_DECL_VARCOPY((*varcopy)), SCIP_VARDATA *vardata)
Definition: scip_var.c:104
Definition: type_var.h:45
void SCIPintervalAdd(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_INTERVAL operand2)
Definition: intervalarith.c:557
static SCIP_RETCODE presolveCreateBenTalNemirovskiApproxDim3(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *x1, SCIP_VAR *x2, SCIP_VAR *x3, SCIP_Real alpha1, SCIP_Real alpha2, SCIP_Real alpha3, SCIP_Real offset1, SCIP_Real offset2, SCIP_Real offset3, int N, const char *basename, int *naddconss)
Definition: cons_soc.c:2091
SCIP_RETCODE SCIPexprtreeAddVars(SCIP_EXPRTREE *tree, int nvars, SCIP_VAR **vars)
Definition: nlp.c:144
SCIP_Real SCIPintervalGetSup(SCIP_INTERVAL interval)
Definition: intervalarith.c:339
SCIP_RETCODE SCIPfixVar(SCIP *scip, SCIP_VAR *var, SCIP_Real fixedval, SCIP_Bool *infeasible, SCIP_Bool *fixed)
Definition: scip_var.c:8178
SCIP_RETCODE SCIPlockVarCons(SCIP *scip, SCIP_VAR *var, SCIP_CONS *cons, SCIP_Bool lockdown, SCIP_Bool lockup)
Definition: scip_var.c:4289
SCIP_RETCODE SCIPsetConshdlrPrint(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRINT((*consprint)))
Definition: scip_cons.c:847
Constraint handler for linear constraints in their most general form, .
SCIP_Bool SCIPisCutApplicable(SCIP *scip, SCIP_ROW *cut)
Definition: scip_cut.c:251
Definition: struct_expr.h:89
SCIP_RETCODE SCIPgetRowprepRowCons(SCIP *scip, SCIP_ROW **row, SCIP_ROWPREP *rowprep, SCIP_CONSHDLR *conshdlr)
Definition: cons_quadratic.c:16806
public methods for the LP relaxation, rows and columns
public methods for nonlinear relaxations
Definition: type_lp.h:36
methods for sorting joint arrays of various types
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)
Definition: cons_linear.c:17546
SCIP_RETCODE SCIPsetConshdlrExitpre(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXITPRE((*consexitpre)))
Definition: scip_cons.c:578
public methods for branching rule plugins and branching
int SCIPgetNLinearVarsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14854
public methods for managing events
general public methods
SCIP_RETCODE SCIPcreateNLPSol(SCIP *scip, SCIP_SOL **sol, SCIP_HEUR *heur)
Definition: scip_sol.c:447
SCIP_RETCODE SCIPaddQuadVarToNlRow(SCIP *scip, SCIP_NLROW *nlrow, SCIP_VAR *var)
Definition: scip_nlp.c:1530
SCIP_Bool SCIPisGT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:555
SCIP_RETCODE SCIPaddCharParam(SCIP *scip, const char *name, const char *desc, char *valueptr, SCIP_Bool isadvanced, char defaultvalue, const char *allowedvalues, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: scip_param.c:239
public methods for solutions
SCIP_RETCODE SCIPgetVarCopy(SCIP *sourcescip, SCIP *targetscip, SCIP_VAR *sourcevar, SCIP_VAR **targetvar, SCIP_HASHMAP *varmap, SCIP_HASHMAP *consmap, SCIP_Bool global, SCIP_Bool *success)
Definition: scip_copy.c:737
SCIP_RETCODE SCIPsetConshdlrInit(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINIT((*consinit)))
Definition: scip_cons.c:458
SCIP_RETCODE SCIPsetConshdlrExit(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXIT((*consexit)))
Definition: scip_cons.c:482
Definition: type_expr.h:86
SCIP_RETCODE SCIPreleaseCons(SCIP *scip, SCIP_CONS **cons)
Definition: scip_cons.c:1187
SCIP_Real SCIPgetLhsConstantSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5422
void SCIPintervalSetRoundingModeUpwards(void)
Definition: intervalarith.c:278
type definitions for expressions and expression trees
SCIP_RETCODE SCIPsetConshdlrPresol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRESOL((*conspresol)), int maxprerounds, SCIP_PRESOLTIMING presoltiming)
Definition: scip_cons.c:602
public methods for message output
NLP local search primal heuristic using sub-SCIPs.
void SCIPupdateSolConsViolation(SCIP *scip, SCIP_SOL *sol, SCIP_Real absviol, SCIP_Real relviol)
Definition: scip_sol.c:322
SCIP_RETCODE SCIPsortQuadVarTermsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14921
SCIP_Real SCIPgetRhsCoefSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5446
Definition: type_var.h:84
SCIP_RETCODE SCIPgetNLPFracVars(SCIP *scip, SCIP_VAR ***fracvars, SCIP_Real **fracvarssol, SCIP_Real **fracvarsfrac, int *nfracvars, int *npriofracvars)
Definition: scip_nlp.c:787
SCIP_RETCODE SCIPsetConshdlrGetNVars(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETNVARS((*consgetnvars)))
Definition: scip_cons.c:916
void SCIPintervalMulScalar(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_Real operand2)
Definition: intervalarith.c:982
Definition: type_lp.h:56
static SCIP_RETCODE evalLhs(SCIP *scip, SCIP_CONS *cons, SCIP_SOL *sol)
Definition: cons_soc.c:714
Definition: struct_nlp.h:63
public methods for message handling
SCIP_RETCODE SCIPprintNlRow(SCIP *scip, SCIP_NLROW *nlrow, FILE *file)
Definition: scip_nlp.c:2079
static SCIP_RETCODE addLinearizationCuts(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS **conss, int nconss, SCIP_SOL *ref, SCIP_Bool *separatedlpsol, SCIP_Real minefficacy, SCIP_Bool *cutoff)
Definition: cons_soc.c:1285
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)
Definition: cons_quadratic.c:14476
Definition: type_retcode.h:45
void SCIPintervalSub(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_INTERVAL operand2)
Definition: intervalarith.c:664
Definition: type_result.h:45
SCIP_Bool SCIPisLE(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:542
static SCIP_DECL_QUADCONSUPGD(upgradeConsQuadratic)
Definition: cons_soc.c:3118
SCIP_RETCODE SCIPupdateStartpointHeurSubNlp(SCIP *scip, SCIP_HEUR *heur, SCIP_SOL *solcand, SCIP_Real violation)
Definition: heur_subnlp.c:2451
SCIP_Bool SCIPconsIsMarkedPropagate(SCIP_CONS *cons)
Definition: cons.c:8285
Definition: struct_expr.h:55
public methods for primal heuristics
SCIP_QUADVARTERM * SCIPgetQuadVarTermsQuadratic(SCIP *scip, SCIP_CONS *cons)
Definition: cons_quadratic.c:14909
SCIP_RETCODE SCIPcreateNlRow(SCIP *scip, SCIP_NLROW **nlrow, const char *name, SCIP_Real constant, int nlinvars, SCIP_VAR **linvars, SCIP_Real *lincoefs, int nquadvars, SCIP_VAR **quadvars, int nquadelems, SCIP_QUADELEM *quadelems, SCIP_EXPRTREE *expression, SCIP_Real lhs, SCIP_Real rhs, SCIP_EXPRCURV curvature)
Definition: scip_nlp.c:1242
int SCIPhashmapGetImageInt(SCIP_HASHMAP *hashmap, void *origin)
Definition: misc.c:3098
Definition: type_expr.h:50
SCIP_RETCODE SCIPexprCreateLinear(BMS_BLKMEM *blkmem, SCIP_EXPR **expr, int nchildren, SCIP_EXPR **children, SCIP_Real *coefs, SCIP_Real constant)
Definition: expr.c:6502
void SCIPintervalAddScalar(SCIP_Real infinity, SCIP_INTERVAL *resultant, SCIP_INTERVAL operand1, SCIP_Real operand2)
Definition: intervalarith.c:584
Definition: objbenders.h:33
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)
Definition: cons_soc.c:5198
SCIP_RETCODE SCIPsetConshdlrExitsol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXITSOL((*consexitsol)))
Definition: scip_cons.c:530
SCIP_RETCODE SCIPwriteVarName(SCIP *scip, FILE *file, SCIP_VAR *var, SCIP_Bool type)
Definition: scip_var.c:220
public methods for global and local (sub)problems
SCIP_ROUNDMODE SCIPintervalGetRoundingMode(void)
Definition: intervalarith.c:199
SCIP_Real SCIPgetSolVal(SCIP *scip, SCIP_SOL *sol, SCIP_VAR *var)
Definition: scip_sol.c:1410
Definition: nlpi_all.c:47
SCIP_Real * SCIPgetLhsCoefsSOC(SCIP *scip, SCIP_CONS *cons)
Definition: cons_soc.c:5398
SCIP_RETCODE SCIPaddRealParam(SCIP *scip, const char *name, const char *desc, SCIP_Real *valueptr, SCIP_Bool isadvanced, SCIP_Real defaultvalue, SCIP_Real minvalue, SCIP_Real maxvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: scip_param.c:211
void SCIPintervalSetRoundingModeDownwards(void)
Definition: intervalarith.c:270
Definition: type_result.h:39
Definition: struct_event.h:186
SCIP_RETCODE SCIPaddBoolParam(SCIP *scip, const char *name, const char *desc, SCIP_Bool *valueptr, SCIP_Bool isadvanced, SCIP_Bool defaultvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: scip_param.c:129
static SCIP_RETCODE catchVarEvents(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONS *cons)
Definition: cons_soc.c:229
Definition: type_expr.h:48
Definition: cons_quadratic.h:134
SCIP_RETCODE SCIPsetConshdlrProp(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPROP((*consprop)), int propfreq, SCIP_Bool delayprop, SCIP_PROPTIMING proptiming)
Definition: scip_cons.c:343
memory allocation routines
Definition: struct_nlpi.h:35
Definition: type_var.h:58