cons_sos1.c
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23 * variable is nonzero. The special case of two variables arises, for instance, from equilibrium or
39 * - If an empty constraint is created and then variables are added with SCIPaddVarSOS1(), weights
42 * - All other calls ignore the weights, i.e., if a nonempty constraint is created or variables are
65 * @todo Possibly allow to generate local cuts via strengthened local cuts (would need to modified coefficients of rows).
67 * @todo Check whether we can avoid turning off multi-aggregation (it is sometimes possible to fix a multi-aggregated
71 /*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/
115 #define CONSHDLR_ENFOPRIORITY 100 /**< priority of the constraint handler for constraint enforcing */
116 #define CONSHDLR_CHECKPRIORITY -10 /**< priority of the constraint handler for checking feasibility */
117 #define CONSHDLR_SEPAFREQ 10 /**< frequency for separating cuts; zero means to separate only in the root node */
118 #define CONSHDLR_PROPFREQ 1 /**< frequency for propagating domains; zero means only preprocessing propagation */
119 #define CONSHDLR_EAGERFREQ 100 /**< frequency for using all instead of only the useful constraints in separation,
121 #define CONSHDLR_MAXPREROUNDS -1 /**< maximal number of presolving rounds the constraint handler participates in (-1: no limit) */
122 #define CONSHDLR_DELAYSEPA FALSE /**< should separation method be delayed, if other separators found cuts? */
123 #define CONSHDLR_DELAYPROP FALSE /**< should propagation method be delayed, if other propagators found reductions? */
124 #define CONSHDLR_NEEDSCONS TRUE /**< should the constraint handler be skipped, if no constraints are available? */
129 #define DEFAULT_MAXSOSADJACENCY 10000 /**< do not create an adjacency matrix if number of SOS1 variables is larger than predefined value
133 #define DEFAULT_MAXEXTENSIONS 1 /**< maximal number of extensions that will be computed for each SOS1 constraint */
134 #define DEFAULT_MAXTIGHTENBDS 5 /**< maximal number of bound tightening rounds per presolving round (-1: no limit) */
135 #define DEFAULT_PERFIMPLANALYSIS FALSE /**< if TRUE then perform implication graph analysis (might add additional SOS1 constraints) */
136 #define DEFAULT_DEPTHIMPLANALYSIS -1 /**< number of recursive calls of implication graph analysis (-1: no limit) */
144 #define DEFAULT_BRANCHSTRATEGIES "nbs" /**< possible branching strategies (see parameter DEFAULT_BRANCHINGRULE) */
145 #define DEFAULT_BRANCHINGRULE 'n' /**< which branching rule should be applied ? ('n': neighborhood, 'b': bipartite, 's': SOS1/clique)
147 #define DEFAULT_AUTOSOS1BRANCH TRUE /**< if TRUE then automatically switch to SOS1 branching if the SOS1 constraints do not overlap */
148 #define DEFAULT_FIXNONZERO FALSE /**< if neighborhood branching is used, then fix the branching variable (if positive in sign) to the value of the
150 #define DEFAULT_ADDCOMPS FALSE /**< if TRUE then add complementarity constraints to the branching nodes (can be used in combination with
152 #define DEFAULT_MAXADDCOMPS -1 /**< maximal number of complementarity constraints added per branching node (-1: no limit) */
153 #define DEFAULT_ADDCOMPSDEPTH 30 /**< only add complementarity constraints to branching nodes for predefined depth (-1: no limit) */
154 #define DEFAULT_ADDCOMPSFEAS -0.6 /**< minimal feasibility value for complementarity constraints in order to be added to the branching node */
155 #define DEFAULT_ADDBDSFEAS 1.0 /**< minimal feasibility value for bound inequalities in order to be added to the branching node */
156 #define DEFAULT_ADDEXTENDEDBDS TRUE /**< should added complementarity constraints be extended to SOS1 constraints to get tighter bound inequalities */
159 #define DEFAULT_NSTRONGROUNDS 0 /**< maximal number of strong branching rounds to perform for each node (-1: auto)
161 #define DEFAULT_NSTRONGITER 10000 /**< maximal number LP iterations to perform for each strong branching round (-2: auto, -1: no limit) */
164 #define DEFAULT_BOUNDCUTSFROMSOS1 FALSE /**< if TRUE separate bound inequalities from SOS1 constraints */
165 #define DEFAULT_BOUNDCUTSFROMGRAPH TRUE /**< if TRUE separate bound inequalities from the conflict graph */
166 #define DEFAULT_AUTOCUTSFROMSOS1 TRUE /**< if TRUE then automatically switch to separating from SOS1 constraints if the SOS1 constraints do not overlap */
167 #define DEFAULT_BOUNDCUTSFREQ 10 /**< frequency for separating bound cuts; zero means to separate only in the root node */
169 #define DEFAULT_MAXBOUNDCUTS 50 /**< maximal number of bound cuts separated per branching node */
170 #define DEFAULT_MAXBOUNDCUTSROOT 150 /**< maximal number of bound cuts separated per iteration in the root node */
171 #define DEFAULT_STRTHENBOUNDCUTS TRUE /**< if TRUE then bound cuts are strengthened in case bound variables are available */
172 #define DEFAULT_IMPLCUTSFREQ 0 /**< frequency for separating implied bound cuts; zero means to separate only in the root node */
173 #define DEFAULT_IMPLCUTSDEPTH 40 /**< node depth of separating implied bound cuts (-1: no limit) */
174 #define DEFAULT_MAXIMPLCUTS 50 /**< maximal number of implied bound cuts separated per branching node */
175 #define DEFAULT_MAXIMPLCUTSROOT 150 /**< maximal number of implied bound cuts separated per iteration in the root node */
205 SCIP_VAR* lbboundvar; /**< bound variable @p z from constraint \f$x \geq \mu \cdot z\f$ (or NULL if not existent) */
206 SCIP_VAR* ubboundvar; /**< bound variable @p z from constraint \f$x \leq \mu \cdot z\f$ (or NULL if not existent) */
207 SCIP_Real lbboundcoef; /**< value \f$\mu\f$ from constraint \f$x \geq \mu z \f$ (0.0 if not existent) */
208 SCIP_Real ubboundcoef; /**< value \f$\mu\f$ from constraint \f$x \leq \mu z \f$ (0.0 if not existent) */
209 SCIP_Bool lbboundcomp; /**< TRUE if the nodes from the connected component of the conflict graph the given node belongs to
211 SCIP_Bool ubboundcomp; /**< TRUE if the nodes from the connected component of the conflict graph the given node belongs to
237 int maxboundcuts; /**< maximal number of clique cuts separated per separation round (-1: no limit) */
238 SCIP_Bool strthenboundcuts; /**< if TRUE then bound cuts are strengthened in case bound variables are available */
239 };
244 {
248 SCIP_Bool isconflocal; /**< if TRUE then local conflicts are present and conflict graph has to be updated for each node */
252 int maxsosadjacency; /**< do not create an adjacency matrix if number of SOS1 variables is larger than predefined
255 SCIP_DIGRAPH* implgraph; /**< implication graph (@p j is successor of @p i if and only if \f$ x_i\not = 0 \Rightarrow x_j\not = 0\f$) */
267 int maxextensions; /**< maximal number of extensions that will be computed for each SOS1 constraint */
268 int maxtightenbds; /**< maximal number of bound tightening rounds per presolving round (-1: no limit) */
269 SCIP_Bool perfimplanalysis; /**< if TRUE then perform implication graph analysis (might add additional SOS1 constraints) */
270 int depthimplanalysis; /**< number of recursive calls of implication graph analysis (-1: no limit) */
276 char branchingrule; /**< which branching rule should be applied ? ('n': neighborhood, 'b': bipartite, 's': SOS1/clique)
278 SCIP_Bool autosos1branch; /**< if TRUE then automatically switch to SOS1 branching if the SOS1 constraints do not overlap */
279 SCIP_Bool fixnonzero; /**< if neighborhood branching is used, then fix the branching variable (if positive in sign) to the value of the
281 SCIP_Bool addcomps; /**< if TRUE then add complementarity constraints to the branching nodes additionally to domain fixings
283 int maxaddcomps; /**< maximal number of complementarity cons. and cor. bound ineq. added per branching node (-1: no limit) */
284 int addcompsdepth; /**< only add complementarity constraints to branching nodes for predefined depth (-1: no limit) */
285 SCIP_Real addcompsfeas; /**< minimal feasibility value for complementarity constraints in order to be added to the branching node */
286 SCIP_Real addbdsfeas; /**< minimal feasibility value for bound inequalities in order to be added to the branching node */
287 SCIP_Bool addextendedbds; /**< should added complementarity constraints be extended to SOS1 constraints to get tighter bound inequalities */
288 SCIP_Bool branchsos; /**< Branch on SOS condition in enforcing? This value can only be set to false if all SOS1 variables are binary */
290 SCIP_Bool branchweight; /**< Branch on SOS cons. with highest nonzero-variable weight for branching - needs branchnonzeros to be false */
293 int nstrongrounds; /**< maximal number of strong branching rounds to perform for each node (-1: auto)
295 int nstrongiter; /**< maximal number LP iterations to perform for each strong branching round (-2: auto, -1: no limit) */
298 SCIP_Bool boundcutsfromgraph; /**< if TRUE separate bound inequalities from the conflict graph */
299 SCIP_Bool autocutsfromsos1; /**< if TRUE then automatically switch to separating SOS1 constraints if the SOS1 constraints do not overlap */
300 SCIP_Bool switchcutsfromsos1; /**< whether to switch to separate bound inequalities from SOS1 constraints */
301 int boundcutsfreq; /**< frequency for separating bound cuts; zero means to separate only in the root node */
304 int maxboundcutsroot; /**< maximal number of bound cuts separated per iteration in the root node */
306 SCIP_Bool strthenboundcuts; /**< if TRUE then bound cuts are strengthened in case bound variables are available */
307 int implcutsfreq; /**< frequency for separating implied bound cuts; zero means to separate only in the root node */
310 int maximplcutsroot; /**< maximal number of implied bound cuts separated per iteration in the root node */
322 SCIP_Bool** adjacencymatrix, /**< adjacency matrix of conflict graph (lower half) (or NULL if an adjacencymatrix is not at hand) */
327 {
379 /** checks whether a variable violates an SOS1 constraint w.r.t. sol together with at least one other variable */
387 {
399 /* check whether variable is nonzero w.r.t. sol and the bounds have not been fixed to zero by propagation */
400 if ( ! SCIPisFeasZero(scip, solval) && ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) ) )
415 if ( ! SCIPisFeasZero(scip, solval) && ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) ) )
424 /** returns solution value of imaginary binary big-M variable of a given node from the conflict graph */
432 {
474 /** gets (variable) lower bound value of current LP relaxation solution for a given node from the conflict graph */
482 {
501 /** gets (variable) upper bound value of current LP relaxation solution for a given node from the conflict graph */
509 {
574 {
577 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(var)) )
591 if ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) )
593 SCIPdebugMsg(scip, "creating constraint to force multi-aggregated variable <%s> to 0.\n", SCIPvarGetName(var));
595 SCIP_CALL( SCIPcreateConsLinear(scip, &cons, "branch", 1, &var, &val, 0.0, 0.0, TRUE, TRUE, TRUE, TRUE, TRUE,
615 * Try to treat fixing by special consideration of multiaggregated variables. For a multi-aggregation
619 * we can express the fixing \f$x = 0\f$ by fixing all \f$x_i\f$ to 0 if \f$c = 0\f$ and the lower bounds of \f$x_i\f$
620 * are nonnegative if \f$\alpha_i > 0\f$ or the upper bounds are nonpositive if \f$\alpha_i < 0\f$.
629 {
660 if ( (SCIPisPositive(scip, aggrvals[i]) && SCIPisNegative(scip, SCIPvarGetLbLocal(aggrvars[i]))) ||
704 SCIP_Bool* success /**< whether fixing was successful, i.e., variable is not multi-aggregated */
712 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(var)) )
771 SCIP_CALL( SCIPunlockVarCons(scip, var, cons, SCIPisFeasNegative(scip, SCIPvarGetLbGlobal(var)),
786 {
837 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(var)) )
848 if ( consdata->rowub != NULL && ! SCIPisInfinity(scip, SCIPvarGetUbGlobal(var)) && ! SCIPisZero(scip, SCIPvarGetUbGlobal(var)) )
854 if ( consdata->rowlb != NULL && ! SCIPisInfinity(scip, SCIPvarGetLbGlobal(var)) && ! SCIPisZero(scip, SCIPvarGetLbGlobal(var)) )
871 /* variable does not appear in the conflict graph: switch to SOS1 branching rule, which does not make use of a conflict graph
873 SCIPdebugMsg(scip, "Switched to SOS1 branching rule, since conflict graph could be infeasible.\n");
878 /* if the constraint is local, then there is no need to act, since local constraints are handled by the local conflict graph in the
916 SCIPdebugMsg(scip, "Added new conflict graph arc from variable %s to variable %s.\n", SCIPvarGetName(var), SCIPvarGetName(vars[v]));
917 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, node), SCIPdigraphGetNSuccessors(conflictgraph, node));
922 SCIPdebugMsg(scip, "Added new conflict graph arc from variable %s to variable %s.\n", SCIPvarGetName(vars[v]), SCIPvarGetName(var));
923 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, nodev), SCIPdigraphGetNSuccessors(conflictgraph, nodev));
928 /* variable does not appear in the conflict graph: switch to SOS1 branching rule, which does not make use of a conflict graph
930 SCIPdebugMsg(scip, "Switched to SOS1 branching rule, since conflict graph could be infeasible.\n");
949 )
965 SCIPerrorMessage("cannot add variable to SOS1 constraint <%s> that does not contain weights.\n", SCIPconsGetName(cons));
1019 {
1077 )
1087 SCIP_CALL( SCIPdropVarEvent(scip, consdata->vars[pos], EVENTHDLR_EVENT_TYPE, eventhdlr, (SCIP_EVENTDATA*)cons, -1) ); /*lint !e740*/
1107 * Algorithm 457: Finding all Cliques of an Undirected Graph, Bron & Kerbosch, Commun. ACM, 1973
1113 SCIP_Bool** adjacencymatrix, /**< adjacencymatrix of the conflict graph (only lower half filled) */
1114 SCIP_DIGRAPH* vertexcliquegraph, /**< graph that contains the information which cliques contain a given vertex
1115 * vertices of variables = 0, ..., nsos1vars-1; vertices of cliques = nsos1vars, ..., nsos1vars+ncliques-1*/
1127 int* workingset, /**< set of vertices that already served as extension and set of candidates that probably will lead to an extension */
1191 if ( vertex != workingset[j] && ! isConnectedSOS1(adjacencymatrix, NULL, vertex, workingset[j]) )
1220 /* If fixed point is initially chosen from candidates then number of disconnections will be preincreased by one. */
1262 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &(cliques[*ncliques]), cliquesizes[*ncliques]) );/*lint !e866*/
1287 /* add arc from clique vertex to clique (needed in presolRoundConssSOS1() to delete redundand cliques) */
1297 cliquesizes[*ncliques] = cliquesizes[*ncliques-1]; /* cliquesizes[*ncliques] = size of newclique */
1314 SCIP_CALL( extensionOperatorSOS1(scip, conshdlrdata, adjacencymatrix, vertexcliquegraph, nsos1vars, nconss, cons, vars, weights, FALSE, usebacktrack,
1315 cliques, ncliques, cliquesizes, newclique, workingsetnew, nworkingsetnew, nextsnew, pos, maxextensions, naddconss, success) );
1333 SCIP_CALL( extensionOperatorSOS1(scip, conshdlrdata, adjacencymatrix, vertexcliquegraph, nsos1vars, nconss, cons, vars, weights, FALSE, usebacktrack,
1334 cliques, ncliques, cliquesizes, newclique, workingset, nworkingset, nextsnew, pos, maxextensions, naddconss, success) );
1373 SCIP_DIGRAPH* conflictgraphlin, /**< conflict graph of linear constraint (nodes: 1, ..., nlinvars) */
1377 int* posinlinvars /**< posinlinvars[i] = position (index) of SOS1 variable i in linear constraint,
1378 * posinlinvars[i]= -1 if @p i is not a SOS1 variable or not a variable of the linear constraint */
1393 for (v = 1; v < nlinvars; ++v) /* we start with v = 1, since "indexinlinvars < v" (see below) is never fulfilled for v = 0 */
1523 /** get nodes whose corresponding SOS1 variables are nonzero if an SOS1 variable of a given node is nonzero */
1529 SCIP_DIGRAPH* implgraph, /**< implication graph (@p j is successor of @p i if and only if \f$ x_i\not = 0 \Rightarrow x_j\not = 0\f$) */
1531 SCIP_Bool* implnodes, /**< implnodes[i] = TRUE if the SOS1 variable corresponding to node i in the implication graph is implied to be nonzero */
1567 if ( sos1node >= 0 && ! implnodes[sos1node] && ( SCIPisFeasPositive(scip, data->lbimpl) || SCIPisFeasNegative(scip, data->ubimpl) ) )
1571 SCIP_CALL( getSOS1Implications(scip, conshdlrdata, vars, implgraph, implhash, implnodes, succnode) );
1656 SCIPdebugMsg(scip, "substituted variable <%s> by <%s>.\n", SCIPvarGetName(vars[j]), SCIPvarGetName(var));
1657 SCIP_CALL( SCIPdropVarEvent(scip, consdata->vars[j], EVENTHDLR_EVENT_TYPE, eventhdlr, (SCIP_EVENTDATA*)cons, -1) ); /*lint !e740*/
1658 SCIP_CALL( SCIPcatchVarEvent(scip, var, EVENTHDLR_EVENT_TYPE, eventhdlr, (SCIP_EVENTDATA*)cons, NULL) ); /*lint !e740*/
1674 SCIPdebugMsg(scip, "variable <%s> appears twice in constraint, fixing it to 0.\n", SCIPvarGetName(vars[j]));
1718 SCIPdebugMsg(scip, "Deleting SOS1 constraint <%s> with < 2 variables.\n", SCIPconsGetName(cons));
1731 SCIPdebugMsg(scip, "The problem is infeasible: more than one variable has bounds that keep it from being 0.\n");
1758 SCIPdebugMsg(scip, "Deleting redundant SOS1 constraint <%s> with one variable.\n", SCIPconsGetName(cons));
1766 /* note: there is no need to update consdata->nfixednonzeros, since the constraint is deleted as soon nfixednonzeros > 0. */
1775 SCIP_CALL( SCIPcreateConsSetpack(scip, &setpackcons, SCIPconsGetName(cons), consdata->nvars, consdata->vars,
1776 SCIPconsIsInitial(cons), SCIPconsIsSeparated(cons), SCIPconsIsEnforced(cons), SCIPconsIsChecked(cons),
1777 SCIPconsIsPropagated(cons), SCIPconsIsLocal(cons), SCIPconsIsModifiable(cons), SCIPconsIsDynamic(cons),
1782 SCIPdebugMsg(scip, "Upgrading SOS1 constraint <%s> to set packing constraint.\n", SCIPconsGetName(cons));
1872 /* Use block memory for cliques, because sizes might be quite different and allocation interfers with workingset. */
1920 SCIP_CALL( presolRoundConsSOS1(scip, cons, consdata, eventhdlr, &substituted, &cutoff, &success, ndelconss, nupgdconss, nfixedvars, nremovedvars) );
2023 SCIP_CALL( cliqueGetCommonSuccessorsSOS1(conshdlrdata, conflictgraph, newclique, vars, nvars, comsucc, &ncomsucc) );
2028 SCIP_CALL( extensionOperatorSOS1(scip, conshdlrdata, adjacencymatrix, vertexcliquegraph, nsos1vars, nconss, cons, consvars, consweights,
2029 TRUE, (maxextensions <= 1) ? FALSE : TRUE, cliques, &ncliques, cliquesizes, newclique, comsucc, ncomsucc, 0, -1, &maxextensions,
2085 * - adds (possibly new) complementarity constraints to the problem if variables are implied to be zero
2086 * - returns that the subproblem is infeasible if the domain of a variable turns out to be empty
2094 SCIP_DIGRAPH* implgraph, /**< implication graph (@p j is successor of @p i if and only if \f$ x_i\not = 0 \Rightarrow x_j\not = 0\f$) */
2096 SCIP_Bool** adjacencymatrix, /**< adjacencymatrix of the conflict graph (only lower half filled) */
2098 int nonznode, /**< node of the conflict graph that is implied to be nonzero if given node is nonzero */
2099 SCIP_Real* impllbs, /**< current lower variable bounds if given node is nonzero (update possible) */
2100 SCIP_Real* implubs, /**< current upper variable bounds if given node is nonzero (update possible) */
2101 SCIP_Bool* implnodes, /**< indicates which variables are currently implied to be nonzero if given node is nonzero (update possible) */
2104 SCIP_Bool* infeasible /**< pointer to store whether the subproblem gets infeasible if variable to 'nonznode' is nonzero */
2116 if ( conshdlrdata->depthimplanalysis >= 0 && *probingdepth >= conshdlrdata->depthimplanalysis )
2124 /* loop through neighbors of 'nonznode' in the conflict graph; these variables are implied to be zero */
2129 /* if the current variable domain of the successor node does not contain the value zero then return that the problem is infeasible
2130 * else if 'succnode' is not already complementary to 'givennode' then add a new complementarity constraint */
2131 if ( givennode == succnode || SCIPisFeasPositive(scip, impllbs[succnode]) || SCIPisFeasNegative(scip, implubs[succnode]) )
2152 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, givennode), SCIPdigraphGetNSuccessors(conflictgraph, givennode));
2153 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, succnode), SCIPdigraphGetNSuccessors(conflictgraph, succnode));
2166 (void) SCIPsnprintf(namesos, SCIP_MAXSTRLEN, "presolved_sos1_%s_%s", SCIPvarGetName(var1), SCIPvarGetName(var2) );
2167 SCIP_CALL( SCIPcreateConsSOS1(scip, &soscons, namesos, 0, NULL, NULL, TRUE, TRUE, TRUE, FALSE, TRUE,
2184 /* by construction: nodes of SOS1 variables are equal for conflict graph and implication graph */
2185 assert( nonznode == SCIPhashmapGetImageInt(implhash, SCIPnodeGetVarSOS1(conflictgraph, nonznode)) );
2205 /* if node is SOS1 and implied to be nonzero for the first time, then this recursively may imply further bound changes */
2206 if ( varGetNodeSOS1(conshdlrdata, totalvars[succnode]) >= 0 && ! implnodes[succnode] && SCIPisFeasPositive(scip, data->lbimpl) )
2208 /* by construction: nodes of SOS1 variables are equal for conflict graph and implication graph */
2209 assert( succnode == SCIPhashmapGetImageInt(implhash, SCIPnodeGetVarSOS1(conflictgraph, succnode)) );
2211 SCIP_CALL( performImplicationGraphAnalysis(scip, conshdlrdata, conflictgraph, totalvars, implgraph, implhash, adjacencymatrix, givennode, succnode, impllbs, implubs, implnodes, naddconss, probingdepth, infeasible) );
2225 /* if node is SOS1 and implied to be nonzero for the first time, then this recursively may imply further bound changes */
2226 if ( varGetNodeSOS1(conshdlrdata, totalvars[succnode]) >= 0 && ! implnodes[succnode] && SCIPisFeasNegative(scip, data->ubimpl) )
2228 /* by construction: nodes of SOS1 variables are equal for conflict graph and implication graph */
2229 assert( succnode == SCIPhashmapGetImageInt(implhash, SCIPnodeGetVarSOS1(conflictgraph, succnode)) );
2231 SCIP_CALL( performImplicationGraphAnalysis(scip, conshdlrdata, conflictgraph, totalvars, implgraph, implhash, adjacencymatrix, givennode, succnode, impllbs, implubs, implnodes, naddconss, probingdepth, infeasible) );
2245 /** returns whether node is implied to be zero; this information is taken from the input array 'implnodes' */
2249 SCIP_Bool* implnodes, /**< implnodes[i] = TRUE if the SOS1 variable corresponding to node i in the implication graph is implied to be nonzero */
2308 if ( ( lower && SCIPisFeasLT(scip, ub, newbound) ) || ( ! lower && SCIPisFeasGT(scip, lb, newbound) ) )
2320 SCIPdebugMsg(scip, "detected infeasibility while trying to fix variable <%s> to zero\n", SCIPvarGetName(varv));
2326 SCIPdebugMsg(scip, "fixed variable %s from lb = %f and ub = %f to 0.0 \n", SCIPvarGetName(varv), lb, ub);
2338 /* search for nodew in existing successors. If this is the case then check whether the lower implication bound may be updated ... */
2355 SCIPdebugMsg(scip, "updated to implication %s != 0 -> %s >= %f\n", SCIPvarGetName(varv), SCIPvarGetName(varw), newbound);
2365 SCIPdebugMsg(scip, "updated to implication %s != 0 -> %s >= %f\n", SCIPvarGetName(varv), SCIPvarGetName(varw), newbound);
2371 /* ..., otherwise if there does not exist an arc between indv and indw already, then create one and add implication */
2380 SCIPdebugMsg(scip, "add implication %s != 0 -> %s >= %f\n", SCIPvarGetName(varv), SCIPvarGetName(varw), newbound);
2386 SCIPdebugMsg(scip, "add implication %s != 0 -> %s <= %f\n", SCIPvarGetName(varv), SCIPvarGetName(varw), newbound);
2398 * Assume the variable from the input is nonzero. If this implies that some other variable is also nonzero, then
2407 SCIP_DIGRAPH* implgraph, /**< implication graph (@p j is successor of @p i if and only if \f$ x_i\not = 0 \Rightarrow x_j\not = 0\f$) */
2409 SCIP_Bool* implnodes, /**< implnodes[i] = TRUE if the SOS1 variable corresponding to node i in the implication graph is implied to be nonzero */
2420 SCIP_Real boundnonzero, /**< bound of variable if it is known to be nonzero if infinity values are not summarized */
2421 int ninftynonzero, /**< number of times infinity/-infinity has to be summarized to boundnonzero */
2436 nodev = varGetNodeSOS1(conshdlrdata, var); /* possibly -1 if var is not involved in an SOS1 constraint */
2438 /* if nodev is an index of an SOS1 variable and at least one lower bound of a variable that is not x_v is infinity */
2454 /* variable should not be fixed to be already zero (note x_v is fixed to be nonzero by assumption) */
2455 if ( nodew < 0 || ( nodev != nodew && ! isConnectedSOS1(adjacencymatrix, NULL, nodev, nodew) && ! isImpliedZero(conflictgraph, implnodes, nodew) ) )
2464 /* boundnonzero is the bound of x_v if x_v is nonzero we use this information to get a bound of x_w if x_v is
2476 nodecliq = varGetNodeSOS1(conshdlrdata, vars[indcliq]); /* possibly -1 if variable is not involved in an SOS1 constraint */
2478 /* if nodecliq is not a member of an SOS1 constraint or the variable corresponding to nodecliq is not implied to be zero if x_v != 0 */
2479 if ( nodecliq < 0 || (! isConnectedSOS1(adjacencymatrix, NULL, nodev, nodecliq) && ! isImpliedZero(conflictgraph, implnodes, nodecliq) ) )
2483 if ( !SCIPisInfinity(scip, REALABS(bounds[w])) && !SCIPisInfinity(scip, REALABS(implbound + bounds[w])) )
2491 if ( SCIPisInfinity(scip, REALABS(bounds[indcliq])) || SCIPisInfinity(scip, REALABS(implbound - bounds[indcliq])) )
2531 SCIP_CALL( updateArcData(scip, implgraph, implhash, totalvars, var, vars[w], lb, ub, newbound, TRUE, nchgbds, update, infeasible) );
2535 SCIP_CALL( updateArcData(scip, implgraph, implhash, totalvars, var, vars[w], lb, ub, newbound, FALSE, nchgbds, update, infeasible) );
2542 SCIP_CALL( updateArcData(scip, implgraph, implhash, totalvars, var, vars[w], lb, ub, newbound, FALSE, nchgbds, update, infeasible) );
2546 SCIP_CALL( updateArcData(scip, implgraph, implhash, totalvars, var, vars[w], lb, ub, newbound, TRUE, nchgbds, update, infeasible) );
2559 * For a given vertex @p v search for a clique of the conflict graph induced by the variables of a linear constraint that
2566 SCIP_DIGRAPH* conflictgraphroot, /**< conflict graph of the root node (nodes: 1, ..., @p nsos1vars) */
2567 SCIP_DIGRAPH* conflictgraphlin, /**< conflict graph of linear constraint (nodes: 1, ..., @p nlinvars) */
2569 SCIP_Bool* coveredvars, /**< states which variables of the linear constraint are currently covered by a clique */
2573 SCIP_Bool considersolvals /**< TRUE if largest auxiliary bigM values of variables should be prefered */
2625 /* search for the extension with the largest absolute value of its LP relaxation solution value */
2679 SCIP_DIGRAPH* implgraph, /**< implication graph (@p j is successor of @p i if and only if \f$ x_i\not = 0 \f$ implies a new lower/upper bound for \f$ x_j\f$) */
2686 SCIP_Bool* implupdate, /**< pointer to store whether the implication graph has been updated in this function call */
2694 SCIP_Bool* implnodes = NULL; /* implnodes[i] = TRUE if the SOS1 variable corresponding to node i in the implication graph is implied to be nonzero */
2695 SCIP_Bool* coveredvars = NULL; /* coveredvars[i] = TRUE if variable with index i is covered by the clique cover */
2696 int* varindincons = NULL; /* varindincons[i] = position of SOS1 index i in linear constraint (-1 if x_i is not involved in linear constraint) */
2698 SCIP_VAR** trafolinvars = NULL; /* variables of transformed linear constraints without (multi)aggregated variables */
2706 SCIP_VAR** sos1linvars = NULL; /* variables that are not contained in linear constraint, but are in conflict with a variable from the linear constraint */
2800 SCIP_CALL( SCIPgetProbvarLinearSum(scip, trafolinvars, trafolinvals, &ntrafolinvars, ntrafolinvars, &constant, &requiredsize, TRUE) );
2806 SCIP_CALL( SCIPgetProbvarLinearSum(scip, trafolinvars, trafolinvals, &ntrafolinvars, requiredsize, &constant, &requiredsize, TRUE) );
2843 if ( SCIPisInfinity(scip, REALABS(lb)) || SCIPisInfinity(scip, REALABS(lb * trafolinvals[v])) )
2848 if ( SCIPisInfinity(scip, REALABS(ub)) || SCIPisInfinity(scip, REALABS(ub * trafolinvals[v])) )
2871 SCIP_CALL( genConflictgraphLinearCons(conshdlrdata, conflictgraphlin, conflictgraph, trafolinvars, ntrafolinvars, varindincons) );
2889 SCIP_CALL( SCIPallocBufferArray(scip, &(cliquecovers[ncliquecovers]), ntrafolinvars) ); /*lint !e866*/
2890 SCIP_CALL( computeVarsCoverSOS1(scip, conflictgraph, conflictgraphlin, trafolinvars, coveredvars, cliquecovers[ncliquecovers], &(cliquecoversizes[ncliquecovers]), v, FALSE) );
2898 /* compute variables that are not contained in transformed linear constraint, but are in conflict with a variable from the transformed linear constraint */
2921 /* if variable is not a member of linear constraint and not already listed in the array sos1linvars */
2934 /* sort each cliquecover array in ascending order of the lower bounds of a_i * x_i; fill vector varincover */
2987 nodev = varGetNodeSOS1(conshdlrdata, var); /* possibly -1 if var is not involved in an SOS1 constraint */
2993 SCIP_CALL( getSOS1Implications(scip, conshdlrdata, totalvars, implgraph, implhash, implnodes, SCIPhashmapGetImageInt(implhash, var)) );
3006 /* determine maximum without index v (note that the array 'cliquecovers' is sorted by the values of trafoub in non-increasing order) */
3009 if ( SCIPisInfinity(scip, trafoubs[indcliq]) || SCIPisInfinity(scip, REALABS(newboundnores - trafoubs[indcliq])) )
3017 if ( SCIPisInfinity(scip, trafoubs[cliquecovers[i][1]]) || SCIPisInfinity(scip, REALABS(newboundnores - trafoubs[cliquecovers[i][1]])) )
3023 /* determine maximum without index v and if x_v is nonzero (note that the array 'cliquecovers' is sorted by the values of trafoub in non-increasing order) */
3029 nodecliq = varGetNodeSOS1(conshdlrdata, trafolinvars[indcliq]); /* possibly -1 if variable is not involved in an SOS1 constraint */
3034 /* if nodev or nodecliq are not a member of an SOS1 constraint or the variable corresponding to nodecliq is not implied to be zero if x_v != 0 */
3035 if ( nodev < 0 || nodecliq < 0 || (! isConnectedSOS1(adjacencymatrix, NULL, nodev, nodecliq) && ! isImpliedZero(conflictgraph, implnodes, nodecliq) ) )
3037 if ( SCIPisInfinity(scip, trafoubs[indcliq]) || SCIPisInfinity(scip, REALABS(newboundnonzero - trafoubs[indcliq])) )
3041 break; /* break since we are only interested in the maximum upper bound among the variables in the clique cover;
3042 * the variables in the clique cover form an SOS1 constraint, thus only one of them can be nonzero */
3084 SCIPdebugMsg(scip, "changed lower bound of variable %s from %f to %f \n", SCIPvarGetName(var), lb, newbound);
3105 SCIPdebugMsg(scip, "changed upper bound of variable %s from %f to %f \n", SCIPvarGetName(var), ub, newbound);
3112 SCIP_CALL( updateImplicationGraphSOS1(scip, conshdlrdata, conflictgraph, adjacencymatrix, implgraph, implhash, implnodes, totalvars, cliquecovers, cliquecoversizes, varincover,
3113 trafolinvars, trafolinvals, ntrafolinvars, trafoubs, var, trafoubv, newboundnonzero, ninftynonzero, TRUE, nchgbds, &update, &infeasible) );
3136 /* sort each cliquecover array in ascending order of the lower bounds of a_i * x_i; fill vector varincover */
3149 /* for every variable that is in transformed constraint or every variable that is in conflict with some variable from trans. cons.:
3187 nodev = varGetNodeSOS1(conshdlrdata, var); /* possibly -1 if var is not involved in an SOS1 constraint */
3190 /* determine incidence vector of implication variables (i.e., which SOS1 variables are nonzero if x_v is nonzero) */
3193 SCIP_CALL( getSOS1Implications(scip, conshdlrdata, totalvars, implgraph, implhash, implnodes, SCIPhashmapGetImageInt(implhash, var)) );
3206 /* determine minimum without index v (note that the array 'cliquecovers' is sorted by the values of trafolb in increasing order) */
3210 if ( SCIPisInfinity(scip, -trafolbs[indcliq]) || SCIPisInfinity(scip, REALABS(newboundnores - trafolbs[indcliq])) )
3218 if ( SCIPisInfinity(scip, -trafolbs[cliquecovers[i][1]]) || SCIPisInfinity(scip, REALABS(newboundnores - trafolbs[cliquecovers[i][1]])) )
3224 /* determine minimum without index v and if x_v is nonzero (note that the array 'cliquecovers' is sorted by the values of trafolb in increasing order) */
3230 nodecliq = varGetNodeSOS1(conshdlrdata, trafolinvars[indcliq]); /* possibly -1 if variable is not involved in an SOS1 constraint */
3235 /* if nodev or nodecliq are not a member of an SOS1 constraint or the variable corresponding to nodecliq is not implied to be zero if x_v != 0 */
3236 if ( nodev < 0 || nodecliq < 0 || (! isConnectedSOS1(adjacencymatrix, NULL, nodev, nodecliq) && ! isImpliedZero(conflictgraph, implnodes, nodecliq) ) )
3239 if ( SCIPisInfinity(scip, -trafolbs[indcliq]) || SCIPisInfinity(scip, REALABS(newboundnonzero - trafolbs[indcliq])) )
3243 break; /* break since we are only interested in the minimum lower bound among the variables in the clique cover;
3244 * the variables in the clique cover form an SOS1 constraint, thus only one of them can be nonzero */
3287 SCIPdebugMsg(scip, "changed upper bound of variable %s from %f to %f \n", SCIPvarGetName(var), ub, newbound);
3308 SCIPdebugMsg(scip, "changed lower bound of variable %s from %f to %f \n", SCIPvarGetName(var), lb, newbound);
3315 SCIP_CALL( updateImplicationGraphSOS1(scip, conshdlrdata, conflictgraph, adjacencymatrix, implgraph, implhash, implnodes, totalvars, cliquecovers, cliquecoversizes, varincover,
3316 trafolinvars, trafolinvals, ntrafolinvars, trafolbs, var, trafolbv, newboundnonzero, ninftynonzero, FALSE, nchgbds, &update, &infeasible) );
3418 for (j = 0; (j < conshdlrdata->maxtightenbds || conshdlrdata->maxtightenbds == -1 ) && ! cutoff; ++j)
3426 SCIP_CALL( tightenVarsBoundsSOS1(scip, conshdlrdata, conflictgraph, implgraph, implhash, adjacencymatrix, totalvars, ntotalvars, nsos1vars, nchgbds, &implupdate, &cutoff) );
3470 SCIP_CALL( performImplicationGraphAnalysis(scip, conshdlrdata, conflictgraph, totalvars, implgraph, implhash, adjacencymatrix, i, i, impllbs, implubs, implnodes, naddconss, &probingdepth, &infeasible) );
3480 SCIPvarGetName(totalvars[i]), SCIPvarGetLbLocal(totalvars[i]), SCIPvarGetUbLocal(totalvars[i]));
3536 )
3575 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(vars[j])) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(vars[j])) )
3583 SCIPdebugMsg(scip, "variable <%s> is fixed nonzero, fixing other variables to 0.\n", SCIPvarGetName(vars[firstFixedNonzero]));
3590 SCIP_CALL( inferVariableZero(scip, vars[j], cons, firstFixedNonzero, &infeasible, &tightened, &success) );
3601 SCIP_CALL( inferVariableZero(scip, vars[j], cons, firstFixedNonzero, &infeasible, &tightened, &success) );
3602 assert( ! infeasible ); /* there should be no variables after firstFixedNonzero that are fixed to be nonzero */
3654 assert( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(SCIPnodeGetVarSOS1(conflictgraph, node))) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(SCIPnodeGetVarSOS1(conflictgraph, node))) );
3676 SCIP_CALL( inferVariableZero(scip, succvar, cons, inferinfo, &infeasible, &tightened, &success) );
3730 SCIP_CALL( SCIPinferVarLbCons(scip, var, succdata->lbimpl, cons, inferinfo, FALSE, &infeasible, &tightened) );
3746 SCIP_CALL( SCIPinferVarUbCons(scip, var, succdata->ubimpl, cons, inferinfo, FALSE, &infeasible, &tightened) );
3803 /* we do not create the adjacency matrix of the conflict graph if the number of SOS1 variables is larger than a predefined value */
3807 SCIPdebugMsg(scip, "Implication graph was not created since number of SOS1 variables (%d) is larger than %d.\n", nsos1vars, conshdlrdata->maxsosadjacency);
3827 * Note: For separation of implied bound cuts it is important that SOS1 variables are enumerated first
3909 SCIP_CALL( tightenVarsBoundsSOS1(scip, conshdlrdata, conflictgraph, conshdlrdata->implgraph, implhash, adjacencymatrix, implvars, nimplnodes, nsos1vars, nchgbds, &implupdate, cutoff) );
3996 /** get the vertices whose neighbor set covers a subset of the neighbor set of a given other vertex.
4003 SCIP_Bool* verticesarefixed, /**< array that indicates which variables are currently fixed to zero */
4005 int* neightocover, /**< neighbors of given vertex to be covered (or NULL if all neighbors shall be covered) */
4006 int nneightocover, /**< number of entries of neightocover (or 0 if all neighbors shall be covered )*/
4007 int* coververtices, /**< array to store the vertices whose neighbor set covers the neighbor set of the given vertex */
4098 assert( *ncoververtices <= 1 || coververtices[*ncoververtices - 1] > coververtices[*ncoververtices - 2] );
4112 SCIP_Bool* verticesarefixed, /**< vector that indicates which variables are currently fixed to zero */
4117 int* fixingsnode2, /**< vertices of variables that will be fixed to zero for the second node */
4121 SCIP_Bool takeallsucc; /* whether to set fixingsnode1 = neighbors of 'branchvertex' in the conflict graph */
4149 /* get all the neighbors of the variable with index 'branchvertex' whose solution value is nonzero */
4152 if ( ! SCIPisFeasZero(scip, SCIPgetSolVal(scip, sol, SCIPnodeGetVarSOS1(conflictgraph, succ[j]))) )
4159 /* if one of the sets fixingsnode1 or fixingsnode2 contains only one variable with a nonzero LP value we perform standard neighborhood branching */
4162 /* get the vertices whose neighbor set cover the selected subset of the neighbors of the given branching vertex */
4163 SCIP_CALL( getCoverVertices(conflictgraph, verticesarefixed, branchvertex, fixingsnode1, *nfixingsnode1, fixingsnode2, nfixingsnode2) );
4165 /* determine the intersection of the neighbors of branchvertex with the intersection of all the neighbors of fixingsnode2 */
4166 SCIP_CALL( getCoverVertices(conflictgraph, verticesarefixed, branchvertex, fixingsnode2, *nfixingsnode2, fixingsnode1, nfixingsnode1) );
4175 /* we decide whether to use all successors if one partition of complete bipartite subgraph has only one node */
4205 SCIP_CALL( getCoverVertices(conflictgraph, verticesarefixed, branchvertex, fixingsnode1, *nfixingsnode1, fixingsnode2, nfixingsnode2) );
4209 /* use neighborhood branching, i.e, for the second node only the branching vertex can be fixed */
4219 /** gets branching priorities for SOS1 variables and applies 'most infeasible selection' rule to determine a vertex for the next branching decision */
4227 SCIP_Bool* verticesarefixed, /**< vector that indicates which variables are currently fixed to zero */
4229 int* fixingsnode1, /**< vertices of variables that will be fixed to zero for the first node (size = nsos1vars) */
4230 int* fixingsnode2, /**< vertices of variables that will be fixed to zero for the second node (size = nsos1vars) */
4231 SCIP_Real* branchpriors, /**< pointer to store branching priorities (size = nsos1vars) or NULL if not needed */
4232 int* vertexbestprior, /**< pointer to store vertex with the best branching priority or NULL if not needed */
4264 if ( nsucc == 0 || SCIPisFeasZero(scip, SCIPgetSolVal(scip, sol, SCIPnodeGetVarSOS1(conflictgraph, i))) || verticesarefixed[i] )
4275 SCIP_CALL( getBranchingVerticesSOS1(scip, conflictgraph, sol, verticesarefixed, bipbranch, i, fixingsnode1, &nfixingsnode1, fixingsnode2, &nfixingsnode2) );
4328 int* fixingsexec, /**< vertices of variables to be fixed to zero for this strong branching execution */
4329 int nfixingsexec, /**< number of vertices of variables to be fixed to zero for this strong branching execution */
4330 int* fixingsop, /**< vertices of variables to be fixed to zero for the opposite strong branching execution */
4331 int nfixingsop, /**< number of vertices of variables to be fixed to zero for the opposite strong branching execution */
4333 SCIP_Bool fixnonzero, /**< shall opposite variable (if positive in sign) fixed to the feasibility tolerance
4335 int* domainfixings, /**< vertices that can be used to reduce the domain (should have size equal to number of variables) */
4336 int* ndomainfixings, /**< pointer to store number of vertices that can be used to reduce the domain, could be filled by earlier calls */
4338 SCIP_Real* objval, /**< pointer to store objective value of LP with fixed variables (SCIP_INVALID if reddomain = TRUE or lperror = TRUE) */
4339 SCIP_Bool* lperror /**< pointer to store whether an unresolved LP error or a strange solution status occurred */
4393 /* fix variable to some negative number with small absolute value or to -1.0 if variable is integral */
4412 if ( SCIPisFeasGT(scip, SCIPvarGetLbLocal(var), 0.0) || SCIPisFeasLT(scip, SCIPvarGetUbLocal(var), 0.0) )
4450 else if ( solstat == SCIP_LPSOLSTAT_OPTIMAL || solstat == SCIP_LPSOLSTAT_TIMELIMIT || solstat == SCIP_LPSOLSTAT_ITERLIMIT )
4476 SCIP_Bool* verticesarefixed, /**< vector that indicates which variables are currently fixed to zero */
4477 int* fixingsnode1, /**< pointer to store vertices of variables that will be fixed to zero for the first node (size = nsos1vars) */
4478 int* fixingsnode2, /**< pointer to store vertices of variables that will be fixed to zero for the second node (size = nsos1vars) */
4480 SCIP_Real* bestobjval1, /**< pointer to store LP objective for left child node of branching decision with best priority */
4481 SCIP_Real* bestobjval2, /**< pointer to store LP objective for right child node of branching decision with best priority */
4516 SCIP_CALL( getBranchingPrioritiesSOS1(scip, conshdlrdata, conflictgraph, sol, nsos1vars, verticesarefixed,
4588 /* if variable with index 'vertex' does not violate any complementarity in its neighborhood for the current LP relaxation solution */
4600 SCIP_CALL( getBranchingVerticesSOS1(scip, conflictgraph, sol, verticesarefixed, bipbranch, testvertex,
4604 SCIP_CALL( performStrongbranchSOS1(scip, conflictgraph, fixingsnode1, nfixingsnode1, fixingsnode2, nfixingsnode2,
4605 inititer, conshdlrdata->fixnonzero, domainfixings, &ndomainfixings, &infeasible1, &objval1, &lperror) );
4610 SCIP_CALL( performStrongbranchSOS1(scip, conflictgraph, fixingsnode2, nfixingsnode2, fixingsnode1, nfixingsnode1,
4635 score = MAX( REALABS(objval1 - lpobjval), SCIPfeastol(scip) ) * MAX( REALABS(objval2 - lpobjval), SCIPfeastol(scip) );/*lint !e666*/
4661 SCIP_CALL( fixVariableZeroNode(scip, SCIPnodeGetVarSOS1(conflictgraph, domainfixings[i]), node, &infeasible) );
4680 /** for two given vertices @p v1 and @p v2 search for a clique in the conflict graph that contains these vertices. From
4691 SCIP_Bool extend, /**< should @p v1 and @p v2 be greedily extended to a clique of larger size */
4806 else /* search for the extension with the largest absolute value of its LP relaxation solution value */
4909 * @note In this function the conflict graph is updated to the conflict graph of the considered child branching node.
4917 SCIP_DIGRAPH* localconflicts, /**< local conflicts (updates to local conflicts of child node) */
4920 SCIP_Bool* verticesarefixed, /**< vector that indicates which variables are currently fixed to zerox */
4921 int* fixingsnode1, /**< vertices of variables that will be fixed to zero for the branching node in the input of this function */
4923 int* fixingsnode2, /**< vertices of variables that will be fixed to zero for the other branching node */
4926 SCIP_Bool onlyviolsos1 /**< should only SOS1 constraints be added that are violated by the LP solution */
4947 int* coverarray; /* vertices, not in fixingsnode1 that cover all the vertices in array fixingsnode22 */
4972 assert( nfixingsnode1 <= 1 || (fixingsnode1[nfixingsnode1 - 1] > fixingsnode1[nfixingsnode1 - 2]) ); /* test: vertices are sorted */
4979 assert( nfixingsnode2 <= 1 || (fixingsnode2[nfixingsnode2 - 1] > fixingsnode2[nfixingsnode2 - 2]) ); /* test: vertices are sorted */
4983 /* compute the set of vertices that have a neighbor in the set fixingsnode2, but are not in the set fixingsnode1 or fixingsnode2 and are not already fixed */
5028 /* compute first partition of fixingsnode2 that is the intersection of the neighbors of 'vertex1' with the set fixingsnode2 */
5038 assert( nfixingsnode21 == 1 || (fixingsnode21[nfixingsnode21 - 1] > fixingsnode21[nfixingsnode21 - 2]) ); /* test: successor vertices are sorted */
5053 SCIPcomputeArraysSetminusInt(fixingsnode2, nfixingsnode2, fixingsnode21, nfixingsnode21, fixingsnode22, &nfixingsnode22);
5056 /* compute cover set (that are all the vertices not in fixingsnode1 and fixingsnode21, whose neighborhood covers all the vertices of fixingsnode22) */
5057 SCIP_CALL( getCoverVertices(conflictgraph, verticesarefixed, -1, fixingsnode22, nfixingsnode22, coverarray, &ncoverarray) );
5058 SCIPcomputeArraysSetminusInt(coverarray, ncoverarray, fixingsnode1, nfixingsnode1, coverarray, &ncoverarray);
5059 SCIPcomputeArraysSetminusInt(coverarray, ncoverarray, fixingsnode21, nfixingsnode21, coverarray, &ncoverarray);
5124 SCIPsortInt(SCIPdigraphGetSuccessors(localconflicts, vertex1), SCIPdigraphGetNSuccessors(localconflicts, vertex1));
5125 SCIPsortInt(SCIPdigraphGetSuccessors(localconflicts, vertex2), SCIPdigraphGetNSuccessors(localconflicts, vertex2));
5126 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, vertex1), SCIPdigraphGetNSuccessors(conflictgraph, vertex1));
5127 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, vertex2), SCIPdigraphGetNSuccessors(conflictgraph, vertex2));
5129 /* mark conflictgraph as not local such that the new arcs are deleted after currents node processing */
5197 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "sos1_branchnode_%" SCIP_LONGINT_FORMAT "_no_%i", SCIPnodeGetNumber(node), *naddedconss);
5198 SCIP_CALL( SCIPcreateConsSOS1(scip, &conssos1, name, 0, NULL, NULL, TRUE, TRUE, TRUE, FALSE, TRUE,
5216 /* possibly create linear constraint of the form x_i/u_i + x_j/u_j <= t if a bound variable t with x_i <= u_i * t and x_j <= u_j * t exists.
5217 * Otherwise try to create a constraint of the form x_i/u_i + x_j/u_j <= 1. Try the same for the lower bounds. */
5218 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "boundcons_branchnode_%" SCIP_LONGINT_FORMAT "_no_%i", SCIPnodeGetNumber(node), *naddedconss);
5222 SCIP_CALL( SCIPcreateConsLinear(scip, &conssos1, name, 0, NULL, NULL, -SCIPinfinity(scip), 0.0, TRUE, FALSE, TRUE, FALSE, FALSE,
5226 SCIP_CALL( getBoundConsFromVertices(scip, conflictgraph, sol, vertex1, vertex2, boundvar1, conshdlrdata->addextendedbds, conssos1, &feas) );
5231 SCIP_CALL( SCIPcreateConsLinear(scip, &conssos1, name, 0, NULL, NULL, -SCIPinfinity(scip), 1.0, TRUE, FALSE, TRUE, FALSE, FALSE,
5235 SCIP_CALL( getBoundConsFromVertices(scip, conflictgraph, sol, vertex1, vertex2, NULL, conshdlrdata->addextendedbds, conssos1, &feas) );
5278 SCIP_DIGRAPH* localconflicts, /**< local conflicts that should be removed from conflict graph */
5315 * - Branch on the neighborhood of a single variable @p i, i.e., in one branch \f$x_i\f$ is fixed to zero and in the
5318 * - Branch on complete bipartite subgraphs of the conflict graph, i.e., in one branch fix the variables from the first
5321 * - In addition to variable domain fixings, it is sometimes also possible to add new SOS1 constraints to the branching
5322 * nodes. This results in a nonstatic conflict graph, which may change dynamically with every branching node.
5324 * We make use of different selection rules that define on which system of SOS1 variables to branch next:
5328 * - Strong branching: Here, the LP-relaxation is partially solved for each branching decision among a candidate list.
5405 /* do nothing if there are not enough variables - this is usually eliminated by preprocessing */
5411 SCIPdebugMsg(scip, "propagating <%s> in enforcing (cutoff: %u, domain reductions: %d).\n", SCIPconsGetName(cons), cutoff, ngen);
5449 if ( ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) )
5459 if ( ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) )
5488 SCIPsortInt(SCIPdigraphGetSuccessors(conflictgraph, j), SCIPdigraphGetNSuccessors(conflictgraph, j));
5533 nstrongrounds = MAX(10, (int)SCIPfloor(scip, pow(log((SCIP_Real)nsos1vars), 1.0)));/*lint !e666*/
5535 nstrongrounds = MAX(5, (int)SCIPfloor(scip, pow(log((SCIP_Real)nsos1vars), 0.7)));/*lint !e666*/
5554 SCIP_CALL( getBranchingPrioritiesSOS1(scip, conshdlrdata, conflictgraph, sol, nsos1vars, verticesarefixed,
5583 SCIP_CALL( getBranchingDecisionStrongbranchSOS1(scip, conshdlrdata, conflictgraph, sol, nsos1vars, lpobjval,
5584 bipbranch, nstrongrounds, verticesarefixed, fixingsnode1, fixingsnode2, &branchvertex, &bestobjval1,
5628 SCIPerrorMessage("Incompatible parameter setting: branchsos can only be set to false if all SOS1 variables are binary.\n");
5638 SCIP_CALL( getBranchingVerticesSOS1(scip, conflictgraph, sol, verticesarefixed, bipbranch, branchvertex,
5686 /* fix variable to some negative number with small absolute value to -1.0 if variable is integral */
5691 /* fix variable to some negative number with small absolute value to -1.0 if variable is integral */
5701 SCIP_CALL( fixVariableZeroNode(scip, SCIPnodeGetVarSOS1(conflictgraph, fixingsnode1[j]), node1, &infeasible) );
5724 SCIP_CALL( fixVariableZeroNode(scip, SCIPnodeGetVarSOS1(conflictgraph, fixingsnode2[j]), node2, &infeasible) );
5729 if ( conshdlrdata->addcomps && ( conshdlrdata->addcompsdepth == -1 || conshdlrdata->addcompsdepth >= SCIPgetDepth(scip) ) )
5736 SCIP_CALL( addBranchingComplementaritiesSOS1(scip, node1, conshdlrdata, conflictgraph, conshdlrdata->localconflicts, sol,
5737 nsos1vars, verticesarefixed, fixingsnode1, nfixingsnode1, fixingsnode2, nfixingsnode2, &naddedconss, TRUE) );
5742 SCIP_CALL( addBranchingComplementaritiesSOS1(scip, node2, conshdlrdata, conflictgraph, conshdlrdata->localconflicts, sol,
5743 nsos1vars, verticesarefixed, fixingsnode2, nfixingsnode2, fixingsnode1, nfixingsnode1, &naddedconss, TRUE) );
5788 * Depending on the parameters (@c branchnonzeros, @c branchweight) there are three ways to choose
5794 * <TR><TD>@c false </TD><TD> @c true </TD><TD>maximal weight corresponding to nonzero variable</TD></TR>
5798 * @c branchnonzeros = @c false, @c branchweight = @c true allows the user to specify an order for
5858 /* do nothing if there are not enough variables - this is usually eliminated by preprocessing */
5864 SCIPdebugMsg(scip, "propagating <%s> in enforcing (cutoff: %u, domain reductions: %d).\n", SCIPconsGetName(cons), cutoff, ngen);
5935 SCIPerrorMessage("Incompatible parameter setting: branchsos can only be set to false if all SOS1 variables are binary.\n");
5941 SCIPdebugMsg(scip, "Branching on constraint <%s> (weight: %f).\n", SCIPconsGetName(branchCons), maxWeight);
5952 assert( ! SCIPisFeasZero(scip, SCIPgetSolVal(scip, sol, vars[0])) && ! SCIPisFeasZero(scip, SCIPgetSolVal(scip, sol, vars[1])) );
5957 SCIP_CALL( SCIPcreateChild(scip, &node1, SCIPcalcNodeselPriority(scip, vars[0], SCIP_BRANCHDIR_DOWNWARDS, 0.0), SCIPcalcChildEstimate(scip, vars[0], 0.0) ) );
5961 SCIP_CALL( SCIPcreateChild(scip, &node2, SCIPcalcNodeselPriority(scip, vars[1], SCIP_BRANCHDIR_DOWNWARDS, 0.0), SCIPcalcChildEstimate(scip, vars[1], 0.0) ) );
6000 /* branch on variable ind: either all variables up to ind or all variables after ind are zero */
6008 objest += SCIPcalcChildEstimateIncrease(scip, vars[j], SCIPgetSolVal(scip, sol, vars[j]), 0.0);
6026 objest += SCIPcalcChildEstimateIncrease(scip, vars[j], SCIPgetSolVal(scip, sol, vars[j]), 0.0);
6074 if ( conshdlrdata->fixnonzero && ( conshdlrdata->branchingrule == 'b' || conshdlrdata->branchingrule == 's' ) )
6076 SCIPerrorMessage("Incompatible parameter setting: nonzero fixing is not compatible with bipartite or sos1 branching.\n");
6117 )
6302 * where \f$\ell_1, \ldots, \ell_n\f$ and \f$u_1, \ldots, u_n\f$ are the nonzero and finite lower and upper bounds of
6303 * the variables \f$x_1, \ldots, x_n\f$. If an upper bound < 0 or a lower bound > 0, the constraint itself is
6304 * redundant, so the cut is not applied (lower bounds > 0 and upper bounds < 0 are usually detected in presolving or
6305 * propagation). Infinite bounds and zero are skipped. Thus \f$\ell_1, \ldots, \ell_n\f$ are all negative, which
6306 * results in the \f$\leq\f$ inequality. In case of the presence of variable upper bounds, the bound inequality can
6309 * Note that in fact, any mixture of nonzero finite lower and upper bounds would lead to a valid inequality as
6310 * above. However, usually either the lower or upper bound is nonzero. Thus, the above inequalities are the most
6321 SCIP_Bool local, /**< in any case produce a local cut (even if local bounds of variables are valid globally) */
6324 SCIP_Bool removable, /**< should the inequality be removed from the LP due to aging or cleanup? */
6355 /* Loop through all variables. We check whether all bound variables (if existent) are equal; if this is the
6413 /* should not apply the cut if a variable is fixed to be negative -> constraint is redundant */
6454 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, rowub, conshdlr, name, -SCIPinfinity(scip), 0.0, localubs, FALSE, removable) );
6462 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, rowub, conshdlr, name, -SCIPinfinity(scip), rhs, localubs, FALSE, removable) );
6476 /* loop through all variables. We check whether all bound variables (if existent) are equal; if this is the
6536 /* should not apply the cut if a variable is fixed to be positive -> constraint is redundant */
6577 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, rowlb, conshdlr, name, -SCIPinfinity(scip), 0.0, locallbs, FALSE, TRUE) );
6585 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, rowlb, conshdlr, name, -SCIPinfinity(scip), rhs, locallbs, FALSE, TRUE) );
6612 /* we don't accept the solution as new incumbent, because we want to find many violated clique inequalities */
6679 if ( generateBoundInequalityFromSOS1Nodes(scip, tcliquedata->conshdlr, tcliquedata->conflictgraph,
6680 cliquenodes, ncliquenodes, 1.0, FALSE, FALSE, tcliquedata->strthenboundcuts, FALSE, nameext, &rowlb, &rowub) != SCIP_OKAY )
6719 /* if we found more than half the cuts we are allowed to generate, we accept the clique as new incumbent,
6744 int maxboundcuts, /**< maximal number of bound cuts separated per separation round (-1: no limit) */
6757 int maxzeroextensions = 1000; /* maximal number of zero-valued variables extending the clique (-1: no limit) */
6758 int backtrackfreq = 1000; /* frequency for premature backtracking up to tree level 1 (0: no backtracking) */
6784 SCIP_CALL( updateWeightsTCliquegraph(scip, conshdlrdata, tcliquedata, conflictgraph, sol, nsos1vars) );
6811 /** Generate a bound constraint from the variables of an SOS1 constraint (see generateBoundInequalityFromSOS1Nodes() for more information) */
6817 SCIP_Bool local, /**< in any case produce a local cut (even if local bounds of variables are valid globally) */
6820 SCIP_Bool removable, /**< should the inequality be removed from the LP due to aging or cleanup? */
6853 if ( SCIPisFeasNegative(scip, SCIPvarGetLbLocal(consdata->vars[j])) || SCIPisFeasPositive(scip, SCIPvarGetUbLocal(consdata->vars[j])) )
6863 SCIP_CALL( generateBoundInequalityFromSOS1Nodes(scip, conshdlr, conshdlrdata->conflictgraph, nodes, cnt, 1.0, local, global,
6884 int maxboundcuts, /**< maximal number of bound cuts separated per separation round (-1: no limit) */
6912 SCIPdebugMsg(scip, "Separating inequalities for SOS1 constraint <%s>.\n", SCIPconsGetName(conss[c]) );
6916 SCIPdebugMsg(scip, "Checking for initial rows for SOS1 constraint <%s>.\n", SCIPconsGetName(conss[c]) );
6919 /* in case that the SOS1 constraint is local, we always generate new rows - the former rows might be invalid;
6923 SCIP_CALL( generateBoundInequalityFromSOS1Cons(scip, conshdlr, conss[c], TRUE, FALSE, TRUE, FALSE, &rowlb, &rowub) );
6930 SCIP_CALL( generateBoundInequalityFromSOS1Cons(scip, conshdlr, conss[c], FALSE, TRUE, TRUE, FALSE,
6939 if ( rowub != NULL && ! SCIProwIsInLP(rowub) && ( solvedinitlp || SCIPisCutEfficacious(scip, sol, rowub) ) )
6951 if ( ! (*cutoff) && rowlb != NULL && ! SCIProwIsInLP(rowlb) && ( solvedinitlp || SCIPisCutEfficacious(scip, sol, rowlb) ) )
6995 int maxcuts, /**< maximal number of implied bound cuts separated per separation round (-1: no limit) */
7029 SCIP_CALL( initImplGraphSOS1(scip, conshdlrdata, conshdlrdata->conflictgraph, conshdlrdata->nsos1vars, conshdlrdata->maxtightenbds, &nchbds, cutoff, &success) );
7149 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, &cut, conshdlr, "", -SCIPinfinity(scip), lhsrhs, FALSE, FALSE, TRUE) );
7158 SCIP_CALL( SCIPcreateEmptyRowConshdlr(scip, &cut, conshdlr, "", lhsrhs, SCIPinfinity(scip), FALSE, FALSE, TRUE) );
7185 SCIPdebugMsg(scip, "added cut for implication %s != 0 -> %s >= %f \n", SCIPvarGetName(var), SCIPvarGetName(succvar), succdata->lbimpl);
7189 SCIPdebugMsg(scip, "added cut for implication %s != 0 -> %s <= %f \n", SCIPvarGetName(var), SCIPvarGetName(succvar), succdata->ubimpl);
7252 ( (conshdlrdata->boundcutsfreq == 0 && depth == 0) || (conshdlrdata->boundcutsfreq > 0 && depth % conshdlrdata->boundcutsfreq == 0)) )
7270 SCIP_CALL( initsepaBoundInequalityFromSOS1Cons(scip, conshdlr, conshdlrdata, conss, nconss, sol, TRUE, maxboundcuts, &ngen, &cutoff) );
7282 SCIP_CALL( sepaBoundInequalitiesFromGraph(scip, conshdlr, conshdlrdata, sol, maxboundcuts, &ngen, &cutoff) );
7299 ( (conshdlrdata->implcutsfreq == 0 && depth == 0) || (conshdlrdata->implcutsfreq > 0 && depth % conshdlrdata->implcutsfreq == 0)) )
7314 SCIP_CALL( sepaImplBoundCutsSOS1(scip, conshdlr, conshdlrdata, sol, maximplcuts, &ngen, &cutoff) );
7334 /** gets weights determining an order of the variables in a heuristic for the maximum weighted independent set problem */
7341 SCIP_Bool* indicatorzero, /**< vector that indicates which variables are currently fixed to zero */
7342 SCIP_Real* weights /**< pointer to store weights determining the order of the variables (length = nsos1vars) */
7395 weights[i] = ( val + SCIPsumepsilon(scip) ) / ( sum * (SCIP_Real)nviols + SCIPsumepsilon(scip) );
7497 SCIP_CALL( markNeighborsMWISHeuristic(scip, conshdlr, conflictgraph, aggrnode, mark, indset, cnt, cutoff) );
7543 * by the algorithm GGWMIN of Shuichi Sakai, Mitsunori Togasaki and Koichi Yamazaki in "A note on greedy algorithms for the
7544 * maximum weighted independent set problem", Discrete Applied Mathematics. Here \f$x^*\f$ denotes the current LP
7545 * relaxation solution. Note that the solution of the MWIS is the indicator vector of an independent set.
7554 SCIP_Bool* indicatorzero, /**< vector that indicates which variables are currently fixed to zero */
7612 SCIP_CALL( markNeighborsMWISHeuristic(scip, conshdlr, conflictgraph, i, mark, indset, &k, &cutoff) );
7633 SCIP_CALL( markNeighborsMWISHeuristic(scip, conshdlr, conflictgraph, ind, mark, indset, &k, &cutoff) );
7649 /** based on solution values of the variables, fixes variables of the conflict graph to zero to turn all SOS1 constraints feasible
7651 * if the SOS1 constraints do not overlap, the method makeSOS1constraintsFeasible() may be faster
7660 )
7718 else if ( SCIPisFeasPositive(scip, lb) || SCIPisFeasNegative(scip, ub) ) /* if variable is fixed to be nonzero */
7732 SCIP_CALL( maxWeightIndSetHeuristic(scip, sol, conshdlr, conflictgraph, nsos1vars, indicatorzero, indset) );
7779 /** based on solution values of the variables, fixes variables of the SOS1 constraints to zero to turn these constraints feasible
7781 * if the SOS1 constraints overlap, the method makeSOS1constraintsFeasible() may result in better primal solutions
7790 )
7852 /* it is possible that the bounds were proagated to zero although the current solution value is nonzero
7859 else if ( SCIPisFeasPositive(scip, lb) || SCIPisFeasNegative(scip, ub) ) /* if variable is fixed to be nonzero */
7866 else if ( ! varisfixed && SCIPisFeasGT(scip, REALABS(SCIPgetSolVal(scip, sol, var)), REALABS(maxval)) ) /* search for variable with maximum solution value */
7914 /** determine a diving variables and boundchanges of diving variables by analyzing the conflict graph
7916 * if the SOS1 constraints do not overlap, the method getDiveBdChgsSOS1constraints() may be faster
7925 )
7951 /* check whether the variable violates an SOS1 constraint together with at least one other variable */
7990 SCIP_CALL( SCIPgetDivesetScore(scip, diveset, SCIP_DIVETYPE_SOS1VARIABLE, var, solval, fracval,
8031 /* if the diving score voted for fixing the best variable to 0.0, we add this as the preferred bound change;
8034 assert( SCIPisFeasNegative(scip, SCIPvarGetLbLocal(bestvar)) || SCIPisFeasPositive(scip, SCIPvarGetUbLocal(bestvar)) );
8035 SCIP_CALL( SCIPaddDiveBoundChange(scip, bestvar, SCIP_BRANCHDIR_FIXED, 0.0, !bestvarfixneigh) );
8043 if ( SCIPisFeasNegative(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasPositive(scip, SCIPvarGetUbLocal(var)) )
8054 /** determine a diving variables and boundchanges of diving variables by analyzing the SOS1 constraints
8056 * if the SOS1 constraints overlap, the method getDiveBdChgsSOS1conflictgraph() may produce better results (e.g., due to more
8066 )
8109 /* check whether variable is nonzero w.r.t. sol and the bounds have not been fixed to zero by propagation */
8111 && (!SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || !SCIPisFeasZero(scip, SCIPvarGetUbLocal(var))) )
8129 SCIP_Bool fixcomp; /* whether to fix the complementary variables of the candidate in the SOS1 constraint to zero */
8136 /* check whether variable is nonzero w.r.t. sol and the bounds have not been fixed to zero by propagation */
8137 if ( ! SCIPisFeasZero(scip, solval) && ( ! SCIPisFeasZero(scip, lb) || ! SCIPisFeasZero(scip, ub) ) )
8166 SCIP_CALL( SCIPgetDivesetScore(scip, diveset, SCIP_DIVETYPE_SOS1VARIABLE, var, solval, fracval,
8175 /* we always fix the complementary variables of the candidate in the SOS1 constraint to zero */
8211 /* if the diving score voted for fixing the best variable to 0.0, we add this as the preferred bound change;
8212 * otherwise, fixing the complementary variables of the candidate in the SOS1 constraint to 0.0 is the preferred bound change.
8214 assert( SCIPisFeasNegative(scip, SCIPvarGetLbLocal(bestvar)) || SCIPisFeasPositive(scip, SCIPvarGetUbLocal(bestvar)) );
8216 SCIP_CALL( SCIPaddDiveBoundChange(scip, bestvar, SCIP_BRANCHDIR_FIXED, 0.0, !bestvarfixcomp) );
8224 if ( var != bestvar && ( SCIPisFeasNegative(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasPositive(scip, SCIPvarGetUbLocal(var)) ) )
8237 /** check whether \f$x_1\f$ is a bound variable of \f$x_0\f$; i.e., \f$x_0 \leq c\cdot x_1\f$ or \f$x_0 \geq d\cdot x_1\f$
8238 * for positive values \f$c, d\f$. If true, then add this information to the node data of the conflict graph.
8284 SCIPdebugMsg(scip, "detected variable bound constraint %s >= %f %s.\n", SCIPvarGetName(var0), val, SCIPvarGetName(var1));
8302 SCIPdebugMsg(scip, "detected variable bound constraint %s <= %f %s.\n", SCIPvarGetName(var0), val, SCIPvarGetName(var1));
8311 /** pass connected component \f$C\f$ of the conflict graph and check whether all the variables correspond to a unique variable upper bound variable \f$z\f$,
8377 SCIP_CALL( passConComponentVarbound(scip, conflictgraph, succ[s], boundvar, checklb, processed, concomp, nconcomp, unique) );
8384 /** for each connected component \f$C\f$ of the conflict graph check whether all the variables correspond to a unique variable upper bound variable \f$z\f$
8385 * (e.g., for the upper bound case this means that \f$x_i \leq u_i z\f$ for every \f$i\in C\f$).
8394 SCIP_Bool checklb /**< whether to check lower bound variable (else check upper bound variable) */
8396 {
8444 SCIP_CALL( passConComponentVarbound(scip, conflictgraph, succ[s], boundvar, checklb, processed, concomp, &nconcomp, &unique) );
8462 SCIPdebugMsg(scip, "Found a connected component of size <%i> with unique bound variable.\n", nconcomp);
8475 /** check all linear constraints for variable bound constraints of the form \f$c\cdot z \leq x \leq d\cdot z\f$, where @p x is some SOS1
8485 {
8550 /** switch to SOS1 branching and separating bound iniqualities from SOS1 constraints if the SOS1 constraints do not overlap */
8558 )
8587 if ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(vars[i])) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(vars[i])) )
8599 assert( node >= 0 || ( SCIPisFeasZero(scip, SCIPvarGetLbLocal(vars[i])) && SCIPisFeasZero(scip, SCIPvarGetUbLocal(vars[i]))) );
8623 SCIPdebugMsg(scip, "Switched to separating bound cuts from SOS1 constraints (and not from the conflict graph), since the SOS1 constraints do not overlap\n");
8659 /* for each connected component of the conflict graph check whether all the variables correspond to a unique variable
8661 SCIP_CALL( checkConComponentsVarbound(scip, conshdlrdata->conflictgraph, conshdlrdata->nsos1vars, TRUE) );
8662 SCIP_CALL( checkConComponentsVarbound(scip, conshdlrdata->conflictgraph, conshdlrdata->nsos1vars, FALSE) );
8676 {
8677 SCIP_Bool* nodecreated; /* nodecreated[i] = TRUE if a node in the conflict graph is already created for index i
8724 if ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) )
8784 if ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) )
8824 if ( ! SCIPisFeasZero(scip, SCIPvarGetLbLocal(var)) || ! SCIPisFeasZero(scip, SCIPvarGetUbLocal(var)) )
8834 SCIP_CALL( SCIPdigraphAddArcSafe(conshdlrdata->conflictgraph, nodeorig[indi], nodeorig[indj], NULL) );
8835 SCIP_CALL( SCIPdigraphAddArcSafe(conshdlrdata->conflictgraph, nodeorig[indj], nodeorig[indi], NULL) );
8926 /** destructor of constraint handler to free constraint handler data (called when SCIP is exiting) */
8939 /* free stack of variables fixed to nonzero (usually already freed in consExitsolSOS1 unless instance was solved during presolving) */
8940 SCIPfreeBlockMemoryArrayNull(scip, &conshdlrdata->fixnonzerovars, conshdlrdata->maxnfixnonzerovars); /*lint !e737*/
8948 /** solving process initialization method of constraint handler (called when branch and bound process is about to begin) */
8977 SCIP_CALL( checkSwitchNonoverlappingSOS1Methods(scip, conshdlrdata, conshdlrdata->conflictgraph, conss, nconss) );
8981 SCIP_CALL( initTCliquegraph(scip, conshdlr, conshdlrdata, conshdlrdata->conflictgraph, conshdlrdata->nsos1vars) );
8989 /* initialize stack of variables fixed to nonzero (memory may be already allocated in consTransSOS1()) */
8993 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &conshdlrdata->fixnonzerovars, conshdlrdata->maxnfixnonzerovars) );
9001 /** solving process deinitialization method of constraint handler (called before branch and bound process data is freed) */
9056 SCIPfreeBlockMemoryArrayNull(scip, &conshdlrdata->fixnonzerovars, conshdlrdata->maxnfixnonzerovars); /*lint !e737*/
9098 SCIP_CALL( SCIPdropVarEvent(scip, (*consdata)->vars[j], EVENTHDLR_EVENT_TYPE, conshdlrdata->eventhdlr,
9160 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &conshdlrdata->fixnonzerovars, conshdlrdata->maxnfixnonzerovars) );
9178 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &consdata->weights, sourcedata->weights, consdata->nvars) );
9189 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(consdata->vars[j])) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(consdata->vars[j])) )
9205 SCIP_CALL( SCIPcatchVarEvent(scip, consdata->vars[j], EVENTHDLR_EVENT_TYPE, conshdlrdata->eventhdlr,
9212 SCIPdebugMsg(scip, "constraint <%s> has %d variables fixed to be nonzero.\n", SCIPconsGetName(*targetcons),
9247 if( nconss > 0 && ( nrounds == 0 || nnewfixedvars > 0 || nnewaggrvars > 0 || nnewchgbds > 0 ) )
9275 /* we do not create the adjacency matrix of the conflict graph if the number of SOS1 variables is larger than a predefined value */
9308 SCIPdebugMsg(scip, "Adjacency matrix was not created since number of SOS1 variables (%d) is larger than %d.\n", nsos1vars, conshdlrdata->maxsosadjacency);
9312 SCIP_CALL( presolRoundConssSOS1(scip, eventhdlr, conshdlrdata, conflictgraph, adjacencymatrix, conss, nconss, nsos1vars, naddconss, ndelconss, nupgdconss, nfixedvars, &nremovedvars, result) );
9319 SCIP_CALL( presolRoundVarsSOS1(scip, conshdlrdata, conflictgraph, adjacencymatrix, nsos1vars, nfixedvars, nchgbds, naddconss, result) );
9333 SCIPdebug( SCIPdebugMsg(scip, "presolving fixed %d variables, changed %d bounds, removed %d variables, deleted %d constraints, and upgraded %d constraints.\n",
9334 *nfixedvars - oldnfixedvars, *nchgbds - oldnchgbds, nremovedvars, *ndelconss - oldndelconss, *nupgdconss - oldnupgdconss); )
9340 /** LP initialization method of constraint handler (called before the initial LP relaxation at a node is solved) */
9358 SCIP_CALL( initsepaBoundInequalityFromSOS1Cons(scip, conshdlr, conshdlrdata, conss, nconss, NULL, FALSE, -1, NULL, infeasible) );
9561 SCIP_CALL( initImplGraphSOS1(scip, conshdlrdata, conflictgraph, conshdlrdata->nsos1vars, conshdlrdata->maxtightenbds, &nchbds, &cutoff, &success) );
9610 if ( SCIPisFeasPositive(scip, SCIPvarGetLbLocal(var)) || SCIPisFeasNegative(scip, SCIPvarGetUbLocal(var)) )
9614 SCIP_CALL( propVariableNonzero(scip, conflictgraph, implgraph, conss[0], node, conshdlrdata->implprop, &cutoff, &ngen) );
9680 SCIPdebugMsg(scip, "Propagation resolution method of SOS1 constraint <%s>.\n", SCIPconsGetName(cons));
9855 SCIP_CALL( SCIPduplicateBufferArray(sourcescip, &targetweights, sourceconsdata->weights, nvars) );
9864 SCIP_CALL( SCIPgetVarCopy(sourcescip, scip, sourcevars[v], &(targetvars[v]), varmap, consmap, global, valid) );
9901 SCIP_CALL( SCIPcreateConsSOS1(scip, cons, name, 0, NULL, NULL, initial, separate, enforce, check, propagate, local, dynamic, removable, stickingatnode) );
9916 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "Syntax error: expected weight at input: %s\n", s);
9927 SCIPverbMessage(scip, SCIP_VERBLEVEL_MINIMAL, NULL, "Syntax error during parsing of the weight: %s\n", s);
9969 /** constraint method of constraint handler which returns the number of variables (if possible) */
10029 assert( 0 <= conshdlrdata->nfixnonzerovars && conshdlrdata->nfixnonzerovars <= SCIPgetNTotalVars(scip) );
10051 assert( 0 <= conshdlrdata->nfixnonzerovars && conshdlrdata->nfixnonzerovars <= SCIPgetNTotalVars(scip) );
10105 SCIPdebugMsg(scip, "changed bound of variable <%s> from %f to %f (nfixednonzeros: %d).\n", SCIPvarGetName(SCIPeventGetVar(event)),
10112 /** constraint handler method to determine a diving variable by assigning a variable and two values for diving */
10136 /* if the SOS1 constraints do not overlap, we apply a faster method getDiveBdChgsSOS1constraints() that does not make use of the conflict graph;
10137 * for overlapping SOS1 constraints we apply the method getDiveBdChgsSOS1conflictgraph(), which then may produce better results (e.g. due to more
10183 SCIP_CALL( SCIPincludeEventhdlrBasic(scip, &conshdlrdata->eventhdlr, EVENTHDLR_NAME, EVENTHDLR_DESC, eventExecSOS1, NULL) );
10207 SCIP_CALL( SCIPsetConshdlrPresol(scip, conshdlr, consPresolSOS1, CONSHDLR_MAXPREROUNDS, CONSHDLR_PRESOLTIMING) );
10209 SCIP_CALL( SCIPsetConshdlrProp(scip, conshdlr, consPropSOS1, CONSHDLR_PROPFREQ, CONSHDLR_DELAYPROP, CONSHDLR_PROP_TIMING) );
10211 SCIP_CALL( SCIPsetConshdlrSepa(scip, conshdlr, consSepalpSOS1, consSepasolSOS1, CONSHDLR_SEPAFREQ, CONSHDLR_SEPAPRIORITY, CONSHDLR_DELAYSEPA) );
10219 "do not create an adjacency matrix if number of SOS1 variables is larger than predefined value (-1: no limit)",
10237 &conshdlrdata->depthimplanalysis, TRUE, DEFAULT_DEPTHIMPLANALYSIS, -1, INT_MAX, NULL, NULL) );
10254 "which branching rule should be applied ? ('n': neighborhood, 'b': bipartite, 's': SOS1/clique) (note: in some cases an automatic switching to SOS1 branching is possible)",
10255 &conshdlrdata->branchingrule, TRUE, DEFAULT_BRANCHINGRULE, DEFAULT_BRANCHSTRATEGIES, NULL, NULL) );
10262 "if neighborhood branching is used, then fix the branching variable (if positive in sign) to the value of the feasibility tolerance",
10266 "if TRUE then add complementarity constraints to the branching nodes (can be used in combination with neighborhood or bipartite branching)",
10274 "minimal feasibility value for complementarity constraints in order to be added to the branching node",
10275 &conshdlrdata->addcompsfeas, TRUE, DEFAULT_ADDCOMPSFEAS, -SCIP_REAL_MAX, SCIP_REAL_MAX, NULL, NULL) );
10278 "minimal feasibility value for bound inequalities in order to be added to the branching node",
10279 &conshdlrdata->addbdsfeas, TRUE, DEFAULT_ADDBDSFEAS, -SCIP_REAL_MAX, SCIP_REAL_MAX, NULL, NULL) );
10282 "should added complementarity constraints be extended to SOS1 constraints to get tighter bound inequalities",
10286 "Use SOS1 branching in enforcing (otherwise leave decision to branching rules)? This value can only be set to false if all SOS1 variables are binary",
10294 "Branch on SOS cons. with highest nonzero-variable weight for branching (needs branchnonzeros = false)?",
10298 "only add complementarity constraints to branching nodes for predefined depth (-1: no limit)",
10303 "maximal number of strong branching rounds to perform for each node (-1: auto); only available for neighborhood and bipartite branching",
10307 "maximal number LP iterations to perform for each strong branching round (-2: auto, -1: no limit)",
10320 "if TRUE then automatically switch to separating initial SOS1 constraints if the SOS1 constraints do not overlap",
10325 &conshdlrdata->boundcutsfreq, TRUE, DEFAULT_BOUNDCUTSFREQ, -1, SCIP_MAXTREEDEPTH, NULL, NULL) );
10345 &conshdlrdata->implcutsfreq, TRUE, DEFAULT_IMPLCUTSFREQ, -1, SCIP_MAXTREEDEPTH, NULL, NULL) );
10365 * We set the constraint to not be modifable. If the weights are non NULL, the variables are ordered according to these
10368 * @note The constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons().
10376 SCIP_Real* weights, /**< weights determining the variable order, or NULL if natural order should be used */
10392 SCIP_Bool removable, /**< should the relaxation be removed from the LP due to aging or cleanup?
10394 SCIP_Bool stickingatnode /**< should the constraint always be kept at the node where it was added, even
10455 SCIP_CALL( SCIPcreateCons(scip, cons, name, conshdlr, consdata, initial, separate, enforce, check, propagate,
10459 /* replace original variables by transformed variables in transformed constraint, add locks, and catch events */
10477 SCIP_CALL( handleNewVariableSOS1(scip, *cons, consdata, conshdlrdata, consdata->vars[v], transformed) );
10484 /** creates and captures a SOS1 constraint with all constraint flags set to their default values.
10489 * @note the constraint gets captured, hence at one point you have to release it using the method SCIPreleaseCons()
10497 SCIP_Real* weights /**< weights determining the variable order, or NULL if natural order should be used */
10500 SCIP_CALL( SCIPcreateConsSOS1( scip, cons, name, nvars, vars, weights, TRUE, TRUE, TRUE, TRUE, TRUE, FALSE, FALSE, FALSE, FALSE) );
10513 {
10521 SCIPdebugMsg(scip, "adding variable <%s> to constraint <%s> with weight %g\n", SCIPvarGetName(var), SCIPconsGetName(cons), weight);
10554 SCIPdebugMsg(scip, "appending variable <%s> to constraint <%s>\n", SCIPvarGetName(var), SCIPconsGetName(cons));
10719 /** returns SOS1 index of variable or -1 if variable is not part of the SOS1 conflict graph */
10775 /** based on solution values of the variables, fixes variables to zero to turn all SOS1 constraints feasible */
10781 SCIP_Bool* success /**< pointer to store whether SOS1 constraints have been turned feasible and
10814 /* if the SOS1 constraints do not overlap, we apply a faster method makeSOS1constraintsFeasible() that does not make use of the conflict graph;
10815 * for overlapping SOS1 constraints we apply the method makeSOS1conflictgraphFeasible(), which then may produce better feasible solutions */
void SCIPsortRealInt(SCIP_Real *realarray, int *intarray, int len)
void ** SCIPdigraphGetSuccessorsData(SCIP_DIGRAPH *digraph, int node)
Definition: misc.c:7739
static SCIP_RETCODE presolRoundConsSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSDATA *consdata, SCIP_EVENTHDLR *eventhdlr, SCIP_Bool *substituted, SCIP_Bool *cutoff, SCIP_Bool *success, int *ndelconss, int *nupgdconss, int *nfixedvars, int *nremovedvars)
Definition: cons_sos1.c:1597
static SCIP_RETCODE genConflictgraphLinearCons(SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraphlin, SCIP_DIGRAPH *conflictgraphorig, SCIP_VAR **linvars, int nlinvars, int *posinlinvars)
Definition: cons_sos1.c:1377
#define SCIPreallocBlockMemoryArray(scip, ptr, oldnum, newnum)
Definition: scip_mem.h:90
SCIP_RETCODE SCIPflattenVarAggregationGraph(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:1690
SCIP_RETCODE SCIPsetConshdlrDelete(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDELETE((*consdelete)))
Definition: scip_cons.c:563
Definition: type_result.h:33
static SCIP_RETCODE enforceConssSOS1(SCIP *scip, SCIP_CONSHDLR *conshdlr, int nconss, SCIP_CONS **conss, SCIP_SOL *sol, SCIP_RESULT *result)
Definition: cons_sos1.c:5810
Definition: type_result.h:37
static SCIP_RETCODE fixVariableZero(SCIP *scip, SCIP_VAR *var, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: cons_sos1.c:629
SCIP_RETCODE SCIPtightenVarLb(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5200
SCIP_RETCODE SCIPcacheRowExtensions(SCIP *scip, SCIP_ROW *row)
Definition: scip_lp.c:1626
SCIP_Real SCIPgetVarUbAtIndex(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx, SCIP_Bool after)
Definition: scip_var.c:2125
SCIP_Bool SCIPisFeasEQ(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:773
public methods for SCIP parameter handling
static SCIP_RETCODE detectVarboundSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var0, SCIP_VAR *var1, SCIP_Real val0, SCIP_Real val1)
Definition: cons_sos1.c:8247
SCIP_Real * SCIPvarGetMultaggrScalars(SCIP_VAR *var)
Definition: var.c:17702
SCIP_RETCODE SCIPsetConshdlrTrans(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSTRANS((*constrans)))
Definition: scip_cons.c:586
public methods for branch and bound tree
Definition: type_lp.h:39
static SCIP_RETCODE propVariableNonzero(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_DIGRAPH *implgraph, SCIP_CONS *cons, int node, SCIP_Bool implprop, SCIP_Bool *cutoff, int *ngen)
Definition: cons_sos1.c:3634
SCIP_Bool SCIPisFeasLT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:786
Definition: struct_scip.h:59
static SCIP_RETCODE getDiveBdChgsSOS1constraints(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DIVESET *diveset, SCIP_SOL *sol, SCIP_Bool *success)
Definition: cons_sos1.c:8066
SCIP_Real SCIPgetVarLbAtIndex(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx, SCIP_Bool after)
Definition: scip_var.c:1989
TCLIQUE_Bool tcliqueCreate(TCLIQUE_GRAPH **tcliquegraph)
Definition: tclique_graph.c:176
static SCIP_DECL_CONSENFORELAX(consEnforelaxSOS1)
Definition: cons_sos1.c:9421
SCIP_VAR ** SCIPgetVarsSOS1(SCIP *scip, SCIP_CONS *cons)
Definition: cons_sos1.c:10605
Definition: type_prob.h:38
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:345
SCIP_CONSHDLR * SCIPfindConshdlr(SCIP *scip, const char *name)
Definition: scip_cons.c:877
SCIP_RETCODE SCIPflushRowExtensions(SCIP *scip, SCIP_ROW *row)
Definition: scip_lp.c:1649
TCLIQUE_Bool tcliqueAddNode(TCLIQUE_GRAPH *tcliquegraph, int node, TCLIQUE_WEIGHT weight)
Definition: tclique_graph.c:331
SCIP_RETCODE SCIPsetConshdlrGetVars(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETVARS((*consgetvars)))
Definition: scip_cons.c:816
SCIP_Real SCIPgetLocalTransEstimate(SCIP *scip)
Definition: scip_prob.c:3545
static SCIP_RETCODE getDiveBdChgsSOS1conflictgraph(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DIVESET *diveset, SCIP_SOL *sol, SCIP_Bool *success)
Definition: cons_sos1.c:7925
public methods for conflict handler plugins and conflict analysis
static SCIP_RETCODE inferVariableZero(SCIP *scip, SCIP_VAR *var, SCIP_CONS *cons, int inferinfo, SCIP_Bool *infeasible, SCIP_Bool *tightened, SCIP_Bool *success)
Definition: cons_sos1.c:703
SCIP_RETCODE SCIPsetConshdlrEnforelax(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSENFORELAX((*consenforelax)))
Definition: scip_cons.c:308
static SCIP_RETCODE cliqueGetCommonSuccessorsSOS1(SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, int *clique, SCIP_VAR **vars, int nvars, int *comsucc, int *ncomsucc)
Definition: cons_sos1.c:1430
static SCIP_RETCODE performStrongbranchSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, int *fixingsexec, int nfixingsexec, int *fixingsop, int nfixingsop, int inititer, SCIP_Bool fixnonzero, int *domainfixings, int *ndomainfixings, SCIP_Bool *infeasible, SCIP_Real *objval, SCIP_Bool *lperror)
Definition: cons_sos1.c:4331
SCIP_RETCODE SCIPresetConsAge(SCIP *scip, SCIP_CONS *cons)
Definition: scip_cons.c:1749
Definition: type_result.h:49
SCIP_RETCODE SCIPaddVarToRow(SCIP *scip, SCIP_ROW *row, SCIP_VAR *var, SCIP_Real val)
Definition: scip_lp.c:1686
void SCIPcomputeArraysSetminusInt(int *array1, int narray1, int *array2, int narray2, int *setminusarray, int *nsetminusarray)
Definition: misc.c:10584
int * SCIPdigraphGetSuccessors(SCIP_DIGRAPH *digraph, int node)
Definition: misc.c:7721
SCIP_Real * SCIPgetWeightsSOS1(SCIP *scip, SCIP_CONS *cons)
Definition: cons_sos1.c:10630
static SCIP_RETCODE getSOS1Implications(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR **vars, SCIP_DIGRAPH *implgraph, SCIP_HASHMAP *implhash, SCIP_Bool *implnodes, int node)
Definition: cons_sos1.c:1531
SCIP_RETCODE SCIPchgVarLbNode(SCIP *scip, SCIP_NODE *node, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_var.c:4843
static SCIP_RETCODE makeSOS1constraintsFeasible(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, SCIP_Bool *changed, SCIP_Bool *allroundable)
Definition: cons_sos1.c:7790
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:95
Definition: struct_var.h:198
SCIP_RETCODE SCIPgetTransformedVar(SCIP *scip, SCIP_VAR *var, SCIP_VAR **transvar)
Definition: scip_var.c:1436
static SCIP_RETCODE propConsSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSDATA *consdata, SCIP_Bool *cutoff, int *ngen)
Definition: cons_sos1.c:3536
SCIP_RETCODE SCIPparseVarName(SCIP *scip, const char *str, SCIP_VAR **var, char **endptr)
Definition: scip_var.c:524
SCIP_RETCODE SCIPmakeSOS1sFeasible(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, SCIP_Bool *changed, SCIP_Bool *success)
Definition: cons_sos1.c:10782
static SCIP_RETCODE extensionOperatorSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_Bool **adjacencymatrix, SCIP_DIGRAPH *vertexcliquegraph, int nsos1vars, int nconss, SCIP_CONS *cons, SCIP_VAR **vars, SCIP_Real *weights, SCIP_Bool firstcall, SCIP_Bool usebacktrack, int **cliques, int *ncliques, int *cliquesizes, int *newclique, int *workingset, int nworkingset, int nexts, int pos, int *maxextensions, int *naddconss, SCIP_Bool *success)
Definition: cons_sos1.c:1116
SCIP_Bool SCIPisFeasNegative(SCIP *scip, SCIP_Real val)
Definition: scip_numerics.c:862
static SCIP_Bool isImpliedZero(SCIP_DIGRAPH *conflictgraph, SCIP_Bool *implnodes, int node)
Definition: cons_sos1.c:2253
static SCIP_RETCODE updateArcData(SCIP *scip, SCIP_DIGRAPH *implgraph, SCIP_HASHMAP *implhash, SCIP_VAR **totalvars, SCIP_VAR *varv, SCIP_VAR *varw, SCIP_Real lb, SCIP_Real ub, SCIP_Real newbound, SCIP_Bool lower, int *nchgbds, SCIP_Bool *update, SCIP_Bool *infeasible)
Definition: cons_sos1.c:2282
static SCIP_Real nodeGetSolvalBinaryBigMSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int node)
Definition: cons_sos1.c:432
SCIP_CONS ** SCIPconshdlrGetConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4547
static SCIP_RETCODE deleteVarSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSDATA *consdata, SCIP_EVENTHDLR *eventhdlr, int pos)
Definition: cons_sos1.c:1077
SCIP_RETCODE SCIPhashmapCreate(SCIP_HASHMAP **hashmap, BMS_BLKMEM *blkmem, int mapsize)
Definition: misc.c:3014
const char * SCIPeventhdlrGetName(SCIP_EVENTHDLR *eventhdlr)
Definition: event.c:315
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:166
static SCIP_Real nodeGetSolvalVarboundLbSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int node)
Definition: cons_sos1.c:482
static SCIP_RETCODE passConComponentVarbound(SCIP *scip, SCIP_DIGRAPH *conflictgraph, int node, SCIP_VAR *boundvar, SCIP_Bool checklb, SCIP_Bool *processed, int *concomp, int *nconcomp, SCIP_Bool *unique)
Definition: cons_sos1.c:8323
static SCIP_Real nodeGetSolvalVarboundUbSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int node)
Definition: cons_sos1.c:509
SCIP_Real SCIPvarGetNegationConstant(SCIP_VAR *var)
Definition: var.c:17747
SCIP_RETCODE SCIPaddConflictUb(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx)
Definition: scip_conflict.c:410
SCIP_RETCODE SCIPincludeConshdlrSOS1(SCIP *scip)
Definition: cons_sos1.c:10161
SCIP_RETCODE SCIPhashmapInsertInt(SCIP_HASHMAP *hashmap, void *origin, int image)
Definition: misc.c:3132
static SCIP_RETCODE maxWeightIndSetHeuristic(SCIP *scip, SCIP_SOL *sol, SCIP_CONSHDLR *conshdlr, SCIP_DIGRAPH *conflictgraph, int nsos1vars, SCIP_Bool *indicatorzero, SCIP_Bool *indset)
Definition: cons_sos1.c:7554
static SCIP_RETCODE separateSOS1(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, int nconss, SCIP_CONS **conss, SCIP_RESULT *result)
Definition: cons_sos1.c:7221
void SCIPsortDownIntInt(int *intarray1, int *intarray2, int len)
public methods for problem variables
SCIP_RETCODE SCIPaddDiveBoundChange(SCIP *scip, SCIP_VAR *var, SCIP_BRANCHDIR dir, SCIP_Real value, SCIP_Bool preferred)
Definition: scip_probing.c:1254
SCIP_RETCODE SCIPtightenVarUb(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5317
static SCIP_RETCODE resetConflictgraphSOS1(SCIP_DIGRAPH *conflictgraph, SCIP_DIGRAPH *localconflicts, int nsos1vars)
Definition: cons_sos1.c:5282
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:220
SCIP_RETCODE SCIPchgVarLbProbing(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_probing.c:292
Definition: type_result.h:40
static SCIP_RETCODE initConflictgraph(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_CONS **conss, int nconss)
Definition: cons_sos1.c:8676
SCIP_RETCODE SCIPchgVarUbNode(SCIP *scip, SCIP_NODE *node, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_var.c:4887
#define SCIPduplicateBufferArray(scip, ptr, source, num)
Definition: scip_mem.h:123
tclique user interface
SCIP_Real SCIPcalcChildEstimateIncrease(SCIP *scip, SCIP_VAR *var, SCIP_Real varsol, SCIP_Real targetvalue)
Definition: scip_branch.c:962
void SCIPsortDownRealInt(SCIP_Real *realarray, int *intarray, int len)
SCIP_Bool SCIPisEQ(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:438
Constraint handler for the set partitioning / packing / covering constraints .
Definition: type_lp.h:37
public methods for SCIP variables
SCIP_RETCODE SCIPsetConshdlrInitlp(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITLP((*consinitlp)))
Definition: scip_cons.c:609
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:74
SCIP_Real SCIPgetRhsLinear(SCIP *scip, SCIP_CONS *cons)
Definition: cons_linear.c:18450
static SCIP_RETCODE getVectorOfWeights(SCIP *scip, SCIP_SOL *sol, SCIP_DIGRAPH *conflictgraph, int nsos1vars, SCIP_Bool *indicatorzero, SCIP_Real *weights)
Definition: cons_sos1.c:7342
SCIP_RETCODE SCIPsetConshdlrParse(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPARSE((*consparse)))
Definition: scip_cons.c:793
SCIP_RETCODE SCIPaddCoefLinear(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real val)
Definition: cons_linear.c:18181
void SCIPinfoMessage(SCIP *scip, FILE *file, const char *formatstr,...)
Definition: scip_message.c:199
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:934
SCIP_RETCODE SCIPcreateDigraph(SCIP *scip, SCIP_DIGRAPH **digraph, int nnodes)
Definition: scip_datastructures.c:608
SCIP_RETCODE SCIPaddConflictLb(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx)
Definition: scip_conflict.c:343
public methods for numerical tolerances
public methods for querying solving statistics
Definition: struct_sol.h:64
SCIP_Longint SCIPgetNDualResolveLPIterations(SCIP *scip)
Definition: scip_solvingstats.c:723
SCIP_Bool SCIPhashmapExists(SCIP_HASHMAP *hashmap, void *origin)
Definition: misc.c:3363
SCIP_RETCODE SCIPaddVarLocksType(SCIP *scip, SCIP_VAR *var, SCIP_LOCKTYPE locktype, int nlocksdown, int nlocksup)
Definition: scip_var.c:4256
public methods for the branch-and-bound tree
SCIP_RETCODE SCIPsetConshdlrInitsol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITSOL((*consinitsol)))
Definition: scip_cons.c:429
#define SCIPduplicateBlockMemoryArray(scip, ptr, source, num)
Definition: scip_mem.h:96
Definition: struct_misc.h:128
SCIP_Bool SCIPisCutEfficacious(SCIP *scip, SCIP_SOL *sol, SCIP_ROW *cut)
Definition: scip_cut.c:108
public methods for managing constraints
Definition: cons_sos1.c:233
SCIP_RETCODE SCIPsetConshdlrGetDiveBdChgs(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)))
Definition: scip_cons.c:862
SCIP_RETCODE SCIPsetConshdlrCopy(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), SCIP_DECL_CONSCOPY((*conscopy)))
Definition: scip_cons.c:332
int SCIPvarGetNodeSOS1(SCIP_CONSHDLR *conshdlr, SCIP_VAR *var)
Definition: cons_sos1.c:10726
TCLIQUE_Bool tcliqueAddEdge(TCLIQUE_GRAPH *tcliquegraph, int node1, int node2)
Definition: tclique_graph.c:371
Definition: type_result.h:35
SCIP_RETCODE SCIPdigraphSetNSuccessors(SCIP_DIGRAPH *digraph, int node, int nsuccessors)
Definition: misc.c:7632
Definition: struct_cons.h:37
SCIP_Bool SCIPisLT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:451
SCIP_RETCODE SCIPpropagateProbing(SCIP *scip, int maxproprounds, SCIP_Bool *cutoff, SCIP_Longint *ndomredsfound)
Definition: scip_probing.c:571
Definition: struct_cons.h:117
Definition: type_retcode.h:42
SCIP_RETCODE SCIPdelConsLocal(SCIP *scip, SCIP_CONS *cons)
Definition: scip_prob.c:3473
public methods for event handler plugins and event handlers
SCIP_RETCODE SCIPaddVarSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real weight)
Definition: cons_sos1.c:10513
void tcliqueChangeWeight(TCLIQUE_GRAPH *tcliquegraph, int node, TCLIQUE_WEIGHT weight)
Definition: tclique_graph.c:353
SCIP_RETCODE SCIPfixVarProbing(SCIP *scip, SCIP_VAR *var, SCIP_Real fixedval)
Definition: scip_probing.c:409
void * SCIPdigraphGetNodeData(SCIP_DIGRAPH *digraph, int node)
Definition: misc.c:7658
static SCIP_RETCODE updateWeightsTCliquegraph(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, TCLIQUE_DATA *tcliquedata, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int nsos1vars)
Definition: cons_sos1.c:6186
Definition: type_retcode.h:48
SCIP_RETCODE SCIPgetProbvarSum(SCIP *scip, SCIP_VAR **var, SCIP_Real *scalar, SCIP_Real *constant)
Definition: scip_var.c:1791
static SCIP_RETCODE generateBoundInequalityFromSOS1Cons(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons, SCIP_Bool local, SCIP_Bool global, SCIP_Bool strengthen, SCIP_Bool removable, SCIP_ROW **rowlb, SCIP_ROW **rowub)
Definition: cons_sos1.c:6819
Definition: type_result.h:36
SCIP_Bool SCIPisEfficacious(SCIP *scip, SCIP_Real efficacy)
Definition: scip_cut.c:126
void SCIPdigraphSetNodeData(SCIP_DIGRAPH *digraph, void *dataptr, int node)
Definition: misc.c:7674
SCIP_RETCODE SCIPunlockVarCons(SCIP *scip, SCIP_VAR *var, SCIP_CONS *cons, SCIP_Bool lockdown, SCIP_Bool lockup)
Definition: scip_var.c:4434
static SCIP_RETCODE sepaBoundInequalitiesFromGraph(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_SOL *sol, int maxboundcuts, int *ngen, SCIP_Bool *cutoff)
Definition: cons_sos1.c:6745
SCIP_RETCODE SCIPmarkDoNotMultaggrVar(SCIP *scip, SCIP_VAR *var)
Definition: scip_var.c:8712
Definition: type_history.h:36
void SCIPcomputeArraysIntersectionInt(int *array1, int narray1, int *array2, int narray2, int *intersectarray, int *nintersectarray)
Definition: misc.c:10454
SCIP_RETCODE SCIPsetConshdlrFree(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSFREE((*consfree)))
Definition: scip_cons.c:357
static SCIP_RETCODE fixVariableZeroNode(SCIP *scip, SCIP_VAR *var, SCIP_NODE *node, SCIP_Bool *infeasible)
Definition: cons_sos1.c:574
SCIP_CONSHDLRDATA * SCIPconshdlrGetData(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4195
Definition: type_var.h:44
Definition: type_retcode.h:33
void tcliqueMaxClique(TCLIQUE_GETNNODES((*getnnodes)), TCLIQUE_GETWEIGHTS((*getweights)), TCLIQUE_ISEDGE((*isedge)), TCLIQUE_SELECTADJNODES((*selectadjnodes)), TCLIQUE_GRAPH *tcliquegraph, TCLIQUE_NEWSOL((*newsol)), TCLIQUE_DATA *tcliquedata, int *maxcliquenodes, int *nmaxcliquenodes, TCLIQUE_WEIGHT *maxcliqueweight, TCLIQUE_WEIGHT maxfirstnodeweight, TCLIQUE_WEIGHT minweight, int maxntreenodes, int backtrackfreq, int maxnzeroextensions, int fixednode, int *ntreenodes, TCLIQUE_STATUS *status)
Definition: tclique_branch.c:1001
SCIP_RETCODE SCIPcreateChild(SCIP *scip, SCIP_NODE **node, SCIP_Real nodeselprio, SCIP_Real estimate)
Definition: scip_branch.c:1008
public methods for problem copies
static SCIP_RETCODE appendVarSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var)
Definition: cons_sos1.c:1019
static SCIP_RETCODE tightenVarsBoundsSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_DIGRAPH *implgraph, SCIP_HASHMAP *implhash, SCIP_Bool **adjacencymatrix, SCIP_VAR **totalvars, int ntotalvars, int nsos1vars, int *nchgbds, SCIP_Bool *implupdate, SCIP_Bool *cutoff)
Definition: cons_sos1.c:2681
SCIP_Bool SCIPisFeasGT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:812
SCIP_RETCODE SCIPsolveProbingLP(SCIP *scip, int itlim, SCIP_Bool *lperror, SCIP_Bool *cutoff)
Definition: scip_probing.c:810
static SCIP_RETCODE computeNodeDataSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, int nsos1vars)
Definition: cons_sos1.c:8639
SCIP_RETCODE SCIPgetProbvarLinearSum(SCIP *scip, SCIP_VAR **vars, SCIP_Real *scalars, int *nvars, int varssize, SCIP_Real *constant, int *requiredsize, SCIP_Bool mergemultiples)
Definition: scip_var.c:1735
SCIP_Real SCIPvarGetMultaggrConstant(SCIP_VAR *var)
Definition: var.c:17714
static SCIP_RETCODE initsepaBoundInequalityFromSOS1Cons(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_CONS **conss, int nconss, SCIP_SOL *sol, SCIP_Bool solvedinitlp, int maxboundcuts, int *ngen, SCIP_Bool *cutoff)
Definition: cons_sos1.c:6882
Definition: type_result.h:42
void SCIPverbMessage(SCIP *scip, SCIP_VERBLEVEL msgverblevel, FILE *file, const char *formatstr,...)
Definition: scip_message.c:216
SCIP_RETCODE SCIPdigraphAddArc(SCIP_DIGRAPH *digraph, int startnode, int endnode, void *data)
Definition: misc.c:7564
SCIP_RETCODE SCIPaddRow(SCIP *scip, SCIP_ROW *row, SCIP_Bool forcecut, SCIP_Bool *infeasible)
Definition: scip_cut.c:241
SCIP_RETCODE SCIPsetConshdlrResprop(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSRESPROP((*consresprop)))
Definition: scip_cons.c:632
SCIP_DIGRAPH * SCIPgetConflictgraphSOS1(SCIP_CONSHDLR *conshdlr)
Definition: cons_sos1.c:10658
SCIP_Bool SCIPdivesetSupportsType(SCIP_DIVESET *diveset, SCIP_DIVETYPE divetype)
Definition: heur.c:742
Definition: type_lp.h:34
public methods for constraint handler plugins and constraints
SCIP_RETCODE SCIPaddConsNode(SCIP *scip, SCIP_NODE *node, SCIP_CONS *cons, SCIP_NODE *validnode)
Definition: scip_prob.c:3322
SCIP_Bool SCIPvarIsSOS1(SCIP_CONSHDLR *conshdlr, SCIP_VAR *var)
Definition: cons_sos1.c:10702
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)
Definition: cons_setppc.c:9259
SCIP_RETCODE SCIPappendVarSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var)
Definition: cons_sos1.c:10547
static SCIP_RETCODE checkConComponentsVarbound(SCIP *scip, SCIP_DIGRAPH *conflictgraph, int nsos1vars, SCIP_Bool checklb)
Definition: cons_sos1.c:8396
SCIP_RETCODE SCIPsetSolVal(SCIP *scip, SCIP_SOL *sol, SCIP_VAR *var, SCIP_Real val)
Definition: scip_sol.c:1212
public data structures and miscellaneous methods
SCIP_RETCODE SCIPdigraphAddArcSafe(SCIP_DIGRAPH *digraph, int startnode, int endnode, void *data)
Definition: misc.c:7595
int SCIPdigraphGetNSuccessors(SCIP_DIGRAPH *digraph, int node)
Definition: misc.c:7706
static SCIP_RETCODE freeImplGraphSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata)
Definition: cons_sos1.c:3948
static SCIP_RETCODE getBranchingDecisionStrongbranchSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int nsos1vars, SCIP_Real lpobjval, SCIP_Bool bipbranch, int nstrongrounds, SCIP_Bool *verticesarefixed, int *fixingsnode1, int *fixingsnode2, int *vertexbestprior, SCIP_Real *bestobjval1, SCIP_Real *bestobjval2, SCIP_RESULT *result)
Definition: cons_sos1.c:4473
static SCIP_RETCODE enforceConflictgraph(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_CONSHDLR *conshdlr, int nconss, SCIP_CONS **conss, SCIP_SOL *sol, SCIP_RESULT *result)
Definition: cons_sos1.c:5338
Definition: struct_heur.h:58
SCIP_RETCODE SCIPupdateNodeLowerbound(SCIP *scip, SCIP_NODE *node, SCIP_Real newbound)
Definition: scip_prob.c:3756
Definition: type_message.h:43
Definition: type_var.h:46
SCIP_RETCODE SCIPprintCons(SCIP *scip, SCIP_CONS *cons, FILE *file)
Definition: scip_cons.c:2473
Definition: struct_lp.h:192
static SCIP_RETCODE freeConflictgraph(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata)
Definition: cons_sos1.c:8871
public methods for LP management
static SCIP_RETCODE addVarSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var, SCIP_Real weight)
Definition: cons_sos1.c:949
public methods for cuts and aggregation rows
static SCIP_RETCODE getBranchingVerticesSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, SCIP_Bool *verticesarefixed, SCIP_Bool bipbranch, int branchvertex, int *fixingsnode1, int *nfixingsnode1, int *fixingsnode2, int *nfixingsnode2)
Definition: cons_sos1.c:4114
SCIP_RETCODE SCIPdropVarEvent(SCIP *scip, SCIP_VAR *var, SCIP_EVENTTYPE eventtype, SCIP_EVENTHDLR *eventhdlr, SCIP_EVENTDATA *eventdata, int filterpos)
Definition: scip_event.c:391
SCIP_Real SCIPcalcNodeselPriority(SCIP *scip, SCIP_VAR *var, SCIP_BRANCHDIR branchdir, SCIP_Real targetvalue)
Definition: scip_branch.c:911
SCIP_VAR * SCIPnodeGetVarSOS1(SCIP_DIGRAPH *conflictgraph, int node)
Definition: cons_sos1.c:10757
Definition: type_var.h:45
SCIP_Longint SCIPgetNDualResolveLPs(SCIP *scip)
Definition: scip_solvingstats.c:703
SCIP_RETCODE SCIPfixVar(SCIP *scip, SCIP_VAR *var, SCIP_Real fixedval, SCIP_Bool *infeasible, SCIP_Bool *fixed)
Definition: scip_var.c:8273
SCIP_RETCODE SCIPlockVarCons(SCIP *scip, SCIP_VAR *var, SCIP_CONS *cons, SCIP_Bool lockdown, SCIP_Bool lockup)
Definition: scip_var.c:4348
static SCIP_RETCODE performImplicationGraphAnalysis(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_VAR **totalvars, SCIP_DIGRAPH *implgraph, SCIP_HASHMAP *implhash, SCIP_Bool **adjacencymatrix, int givennode, int nonznode, SCIP_Real *impllbs, SCIP_Real *implubs, SCIP_Bool *implnodes, int *naddconss, int *probingdepth, SCIP_Bool *infeasible)
Definition: cons_sos1.c:2095
SCIP_RETCODE SCIPsetConshdlrPrint(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRINT((*consprint)))
Definition: scip_cons.c:770
Constraint handler for linear constraints in their most general form, .
static SCIP_RETCODE initImplGraphSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, int nsos1vars, int maxrounds, int *nchgbds, SCIP_Bool *cutoff, SCIP_Bool *success)
Definition: cons_sos1.c:3777
SCIP_RETCODE SCIPinferVarLbCons(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_CONS *infercons, int inferinfo, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5498
static SCIP_RETCODE initTCliquegraph(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, int nsos1vars)
Definition: cons_sos1.c:6117
static SCIP_RETCODE addBoundCutSepa(SCIP *scip, TCLIQUE_DATA *tcliquedata, SCIP_ROW *rowlb, SCIP_ROW *rowub, SCIP_Bool *success, SCIP_Bool *cutoff)
Definition: cons_sos1.c:6246
SCIP_Real SCIPcalcChildEstimate(SCIP *scip, SCIP_VAR *var, SCIP_Real targetvalue)
Definition: scip_branch.c:938
SCIP_RETCODE SCIPcreateConsBasicSOS1(SCIP *scip, SCIP_CONS **cons, const char *name, int nvars, SCIP_VAR **vars, SCIP_Real *weights)
Definition: cons_sos1.c:10497
public methods for the LP relaxation, rows and columns
methods for sorting joint arrays of various types
Definition: type_history.h:34
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:17840
public methods for branching rule plugins and branching
static SCIP_RETCODE getBoundConsFromVertices(SCIP *scip, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int v1, int v2, SCIP_VAR *boundvar, SCIP_Bool extend, SCIP_CONS *cons, SCIP_Real *feas)
Definition: cons_sos1.c:4690
public methods for managing events
SCIP_Longint SCIPgetNNodeInitLPIterations(SCIP *scip)
Definition: scip_solvingstats.c:813
general public methods
SCIP_Bool SCIPisGT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
Definition: scip_numerics.c:477
static SCIP_RETCODE addBranchingComplementaritiesSOS1(SCIP *scip, SCIP_NODE *node, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_DIGRAPH *localconflicts, SCIP_SOL *sol, int nsos1vars, SCIP_Bool *verticesarefixed, int *fixingsnode1, int nfixingsnode1, int *fixingsnode2, int nfixingsnode2, int *naddedconss, SCIP_Bool onlyviolsos1)
Definition: cons_sos1.c:4918
static SCIP_RETCODE makeSOS1conflictgraphFeasible(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_SOL *sol, SCIP_Bool *changed, SCIP_Bool *allroundable)
Definition: cons_sos1.c:7660
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:158
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:702
SCIP_VAR ** SCIPgetVarsLinear(SCIP *scip, SCIP_CONS *cons)
Definition: cons_linear.c:18537
SCIP_RETCODE SCIPinferVarUbCons(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound, SCIP_CONS *infercons, int inferinfo, SCIP_Bool force, SCIP_Bool *infeasible, SCIP_Bool *tightened)
Definition: scip_var.c:5612
public methods for the probing mode
SCIP_RETCODE SCIPreleaseCons(SCIP *scip, SCIP_CONS **cons)
Definition: scip_cons.c:1110
static SCIP_RETCODE checkSwitchNonoverlappingSOS1Methods(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_CONS **conss, int nconss)
Definition: cons_sos1.c:8558
SCIP_RETCODE SCIPsetConshdlrPresol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRESOL((*conspresol)), int maxprerounds, SCIP_PRESOLTIMING presoltiming)
Definition: scip_cons.c:525
public methods for message output
void SCIPupdateSolConsViolation(SCIP *scip, SCIP_SOL *sol, SCIP_Real absviol, SCIP_Real relviol)
Definition: scip_sol.c:264
static SCIP_RETCODE branchCons(SCIP *scip, SCIP_CONS *cons, SCIP_RESULT *result)
Definition: cons_disjunction.c:222
Definition: type_var.h:84
SCIP_Bool SCIPisFeasPositive(SCIP *scip, SCIP_Real val)
Definition: scip_numerics.c:850
static SCIP_RETCODE lockVariableSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var)
Definition: cons_sos1.c:746
static SCIP_RETCODE sepaImplBoundCutsSOS1(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_SOL *sol, int maxcuts, int *ngen, SCIP_Bool *cutoff)
Definition: cons_sos1.c:6996
SCIP_RETCODE SCIPaddVarsToRow(SCIP *scip, SCIP_ROW *row, int nvars, SCIP_VAR **vars, SCIP_Real *vals)
Definition: scip_lp.c:1712
SCIP_RETCODE SCIPsetConshdlrGetNVars(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETNVARS((*consgetnvars)))
Definition: scip_cons.c:839
constraint handler for SOS type 1 constraints
public methods for message handling
static SCIP_RETCODE updateImplicationGraphSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_Bool **adjacencymatrix, SCIP_DIGRAPH *implgraph, SCIP_HASHMAP *implhash, SCIP_Bool *implnodes, SCIP_VAR **totalvars, int **cliquecovers, int *cliquecoversizes, int *varincover, SCIP_VAR **vars, SCIP_Real *coefs, int nvars, SCIP_Real *bounds, SCIP_VAR *var, SCIP_Real bound, SCIP_Real boundnonzero, int ninftynonzero, SCIP_Bool lower, int *nchgbds, SCIP_Bool *update, SCIP_Bool *infeasible)
Definition: cons_sos1.c:2408
public methods for data structures
SCIP_RETCODE SCIPprintRow(SCIP *scip, SCIP_ROW *row, FILE *file)
Definition: scip_lp.c:2197
static SCIP_RETCODE getCoverVertices(SCIP_DIGRAPH *conflictgraph, SCIP_Bool *verticesarefixed, int vertex, int *neightocover, int nneightocover, int *coververtices, int *ncoververtices)
Definition: cons_sos1.c:4007
void SCIPsortInt(int *intarray, int len)
static SCIP_RETCODE presolRoundVarsSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_Bool **adjacencymatrix, int nsos1vars, int *nfixedvars, int *nchgbds, int *naddconss, SCIP_RESULT *result)
Definition: cons_sos1.c:3362
Definition: type_retcode.h:45
void SCIPsortRealPtr(SCIP_Real *realarray, void **ptrarray, int len)
Definition: type_lp.h:35
static SCIP_RETCODE checkLinearConssVarboundSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_CONS **linconss, int nlinconss)
Definition: cons_sos1.c:8485
static SCIP_RETCODE handleNewVariableSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_CONSDATA *consdata, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var, SCIP_Bool transformed)
Definition: cons_sos1.c:814
static SCIP_RETCODE consdataEnsurevarsSizeSOS1(SCIP *scip, SCIP_CONSDATA *consdata, int num, SCIP_Bool reserveWeights)
Definition: cons_sos1.c:786
static SCIP_RETCODE unlockVariableSOS1(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var)
Definition: cons_sos1.c:766
static SCIP_Bool varIsSOS1(SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var)
Definition: cons_sos1.c:536
static SCIP_RETCODE presolRoundConssSOS1(SCIP *scip, SCIP_EVENTHDLR *eventhdlr, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_Bool **adjacencymatrix, SCIP_CONS **conss, int nconss, int nsos1vars, int *naddconss, int *ndelconss, int *nupgdconss, int *nfixedvars, int *nremovedvars, SCIP_RESULT *result)
Definition: cons_sos1.c:1823
Definition: type_result.h:45
SCIP_Real * SCIPgetValsLinear(SCIP *scip, SCIP_CONS *cons)
Definition: cons_linear.c:18561
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)
Definition: cons_sos1.c:10376
static SCIP_RETCODE markNeighborsMWISHeuristic(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DIGRAPH *conflictgraph, int node, SCIP_Bool *mark, SCIP_Bool *indset, int *cnt, SCIP_Bool *cutoff)
Definition: cons_sos1.c:7413
#define SCIPfreeBlockMemoryArrayNull(scip, ptr, num)
Definition: scip_mem.h:102
SCIP_RETCODE SCIPgetDivesetScore(SCIP *scip, SCIP_DIVESET *diveset, SCIP_DIVETYPE divetype, SCIP_VAR *divecand, SCIP_Real divecandsol, SCIP_Real divecandfrac, SCIP_Real *candscore, SCIP_Bool *roundup)
Definition: scip_probing.c:1110
Definition: type_lp.h:38
static SCIP_RETCODE getBranchingPrioritiesSOS1(SCIP *scip, SCIP_CONSHDLRDATA *conshdlrdata, SCIP_DIGRAPH *conflictgraph, SCIP_SOL *sol, int nsos1vars, SCIP_Bool *verticesarefixed, SCIP_Bool bipbranch, int *fixingsnode1, int *fixingsnode2, SCIP_Real *branchpriors, int *vertexbestprior, SCIP_Bool *relsolfeas)
Definition: cons_sos1.c:4227
Definition: type_retcode.h:35
public methods for primal heuristics
SCIPallocBlockMemory(scip, subsol))
Definition: type_retcode.h:43
int SCIPhashmapGetImageInt(SCIP_HASHMAP *hashmap, void *origin)
Definition: misc.c:3221
SCIP_RETCODE SCIPcreateEmptyRowConshdlr(SCIP *scip, SCIP_ROW **row, SCIP_CONSHDLR *conshdlr, const char *name, SCIP_Real lhs, SCIP_Real rhs, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool removable)
Definition: scip_lp.c:1382
Definition: objbenders.h:33
static SCIP_DECL_CONSGETDIVEBDCHGS(consGetDiveBdChgsSOS1)
Definition: cons_sos1.c:10120
SCIP_RETCODE SCIPsetConshdlrExitsol(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXITSOL((*consexitsol)))
Definition: scip_cons.c:453
SCIP_RETCODE SCIPwriteVarName(SCIP *scip, FILE *file, SCIP_VAR *var, SCIP_Bool type)
Definition: scip_var.c:221
public methods for global and local (sub)problems
SCIP_RETCODE SCIPchgVarUbProbing(SCIP *scip, SCIP_VAR *var, SCIP_Real newbound)
Definition: scip_probing.c:336
Definition: struct_misc.h:210
static SCIP_RETCODE generateBoundInequalityFromSOS1Nodes(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DIGRAPH *conflictgraph, int *nodes, int nnodes, SCIP_Real rhs, SCIP_Bool local, SCIP_Bool global, SCIP_Bool strengthen, SCIP_Bool removable, const char *nameext, SCIP_ROW **rowlb, SCIP_ROW **rowub)
Definition: cons_sos1.c:6320
static SCIP_RETCODE enforceSOS1(SCIP *scip, SCIP_CONSHDLR *conshdlr, int nconss, SCIP_CONS **conss, SCIP_SOL *sol, SCIP_RESULT *result)
Definition: cons_sos1.c:6054
SCIP_Real SCIPgetSolVal(SCIP *scip, SCIP_SOL *sol, SCIP_VAR *var)
Definition: scip_sol.c:1352
int SCIPgetNVarsLinear(SCIP *scip, SCIP_CONS *cons)
Definition: cons_linear.c:18513
Definition: type_set.h:38
static int varGetNodeSOS1(SCIP_CONSHDLRDATA *conshdlrdata, SCIP_VAR *var)
Definition: cons_sos1.c:553
SCIP_Real SCIPgetLhsLinear(SCIP *scip, SCIP_CONS *cons)
Definition: cons_linear.c:18426
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:130
static SCIP_RETCODE computeVarsCoverSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraphroot, SCIP_DIGRAPH *conflictgraphlin, SCIP_VAR **linvars, SCIP_Bool *coveredvars, int *clique, int *cliquesize, int v, SCIP_Bool considersolvals)
Definition: cons_sos1.c:2570
static SCIP_Bool isConnectedSOS1(SCIP_Bool **adjacencymatrix, SCIP_DIGRAPH *conflictgraph, int vertex1, int vertex2)
Definition: cons_sos1.c:327
Definition: type_result.h:39
Definition: struct_event.h:195
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:48
static SCIP_Bool isViolatedSOS1(SCIP *scip, SCIP_DIGRAPH *conflictgraph, int node, SCIP_SOL *sol)
Definition: cons_sos1.c:387
SCIP_RETCODE SCIPsetConshdlrProp(SCIP *scip, SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPROP((*consprop)), int propfreq, SCIP_Bool delayprop, SCIP_PROPTIMING proptiming)
Definition: scip_cons.c:266
memory allocation routines