edge concave cut separator
Definition in file sepa_eccuts.c.
#include <assert.h>
#include <string.h>
#include "scip/scipdefplugins.h"
#include "scip/sepa_eccuts.h"
#include "scip/cons_xor.h"
#include "scip/nlp.h"
#include "tclique/tclique.h"
Go to the source code of this file.
Macros | |
#define | SEPA_NAME "eccuts" |
#define | SEPA_DESC "separator for edge-concave functions" |
#define | SEPA_PRIORITY -13000 |
#define | SEPA_FREQ -1 |
#define | SEPA_MAXBOUNDDIST 1.0 |
#define | SEPA_USESSUBSCIP FALSE |
#define | SEPA_DELAY FALSE |
#define | CLIQUE_MAXFIRSTNODEWEIGHT 1000 |
#define | CLIQUE_MINWEIGHT 0 |
#define | CLIQUE_MAXNTREENODES 10000 |
#define | CLIQUE_BACKTRACKFREQ 10000 |
#define | DEFAULT_DYNAMICCUTS TRUE |
#define | DEFAULT_MAXROUNDS 10 |
#define | DEFAULT_MAXROUNDSROOT 250 |
#define | DEFAULT_MAXDEPTH -1 |
#define | DEFAULT_MAXSEPACUTS 10 |
#define | DEFAULT_MAXSEPACUTSROOT 50 |
#define | DEFAULT_CUTMAXRANGE 1e+7 |
#define | DEFAULT_MINVIOLATION 0.3 |
#define | DEFAULT_MINAGGRSIZE 3 |
#define | DEFAULT_MAXAGGRSIZE 4 |
#define | DEFAULT_MAXBILINTERMS 500 |
#define | DEFAULT_MAXSTALLROUNDS 5 |
#define | SUBSCIP_NODELIMIT 100LL |
#define | ADJUSTFACETTOL 1e-6 |
#define | USEDUALSIMPLEX TRUE |
Typedefs | |
typedef struct EcAggr | SCIP_ECAGGR |
typedef struct NlrowAggr | SCIP_NLROWAGGR |
Variables | |
static const int | poweroftwo [] = { 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192 } |
#define SEPA_NAME "eccuts" |
Definition at line 35 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_DESC "separator for edge-concave functions" |
Definition at line 36 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_PRIORITY -13000 |
Definition at line 37 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_FREQ -1 |
Definition at line 38 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_MAXBOUNDDIST 1.0 |
Definition at line 39 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_USESSUBSCIP FALSE |
does the separator use a secondary SCIP instance?
Definition at line 40 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SEPA_DELAY FALSE |
should separation method be delayed, if other separators found cuts?
Definition at line 41 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define CLIQUE_MAXFIRSTNODEWEIGHT 1000 |
maximum weight of branching nodes in level 0; 0 if not used for cliques with at least one fractional node)
Definition at line 43 of file sepa_eccuts.c.
Referenced by searchEcAggrWithCliques().
#define CLIQUE_MINWEIGHT 0 |
lower bound for weight of generated cliques
Definition at line 46 of file sepa_eccuts.c.
Referenced by searchEcAggrWithCliques().
#define CLIQUE_MAXNTREENODES 10000 |
maximal number of nodes of b&b tree
Definition at line 47 of file sepa_eccuts.c.
Referenced by searchEcAggrWithCliques().
#define CLIQUE_BACKTRACKFREQ 10000 |
frequency to backtrack to first level of tree (0: no premature backtracking)
Definition at line 48 of file sepa_eccuts.c.
Referenced by searchEcAggrWithCliques().
#define DEFAULT_DYNAMICCUTS TRUE |
should generated cuts be removed from the LP if they are no longer tight?
Definition at line 50 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXROUNDS 10 |
maximal number of separation rounds per node (-1: unlimited)
Definition at line 51 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXROUNDSROOT 250 |
maximal number of separation rounds in the root node (-1: unlimited)
Definition at line 52 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXDEPTH -1 |
maximal depth at which the separator is applied
Definition at line 53 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXSEPACUTS 10 |
maximal number of e.c. cuts separated per separation round
Definition at line 54 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXSEPACUTSROOT 50 |
maximal number of e.c. cuts separated per separation round in root node
Definition at line 55 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_CUTMAXRANGE 1e+7 |
maximal coefficient range of a cut (maximal coefficient divided by minimal coefficient) in order to be added to LP relaxation
Definition at line 56 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MINVIOLATION 0.3 |
minimal violation of an e.c. cut to be separated
Definition at line 59 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MINAGGRSIZE 3 |
search for e.c. aggregation of at least this size (has to be >= 3)
Definition at line 60 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXAGGRSIZE 4 |
search for e.c. aggregation of at most this size (has to be >= minaggrsize)
Definition at line 61 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXBILINTERMS 500 |
maximum number of bilinear terms allowed to be in a quadratic constraint
Definition at line 62 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define DEFAULT_MAXSTALLROUNDS 5 |
maximum number of unsuccessful rounds in the e.c. aggregation search
Definition at line 63 of file sepa_eccuts.c.
Referenced by SCIPincludeSepaEccuts().
#define SUBSCIP_NODELIMIT 100LL |
node limit to solve the sub-SCIP
Definition at line 65 of file sepa_eccuts.c.
Referenced by searchEcAggrWithMIP().
#define ADJUSTFACETTOL 1e-6 |
adjust resulting facets in checkRikun() up to a violation of this value
Definition at line 67 of file sepa_eccuts.c.
Referenced by checkRikun().
#define USEDUALSIMPLEX TRUE |
use dual or primal simplex algorithm?
Definition at line 68 of file sepa_eccuts.c.
Referenced by SCIPcomputeConvexEnvelopeFacet().
typedef struct EcAggr SCIP_ECAGGR |
Definition at line 92 of file sepa_eccuts.c.
typedef struct NlrowAggr SCIP_NLROWAGGR |
Definition at line 122 of file sepa_eccuts.c.
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creates and empty edge-concave aggregation (without bilinear terms)
scip | SCIP data structure |
ecaggr | pointer to store the edge-concave aggregation |
nquadvars | number of quadratic variables |
nquadterms | number of bilinear terms |
Definition at line 165 of file sepa_eccuts.c.
References ecaggrFree(), SCIP_CALL, SCIP_OKAY, SCIPallocBlockMemory, and SCIPallocBlockMemoryArray.
Referenced by nlrowaggrCreate().
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frees and edge-concave aggregation
scip | SCIP data structure |
ecaggr | pointer to store the edge-concave aggregation |
Definition at line 195 of file sepa_eccuts.c.
References ecaggrAddQuadvar(), SCIP_OKAY, SCIPfreeBlockMemory, and SCIPfreeBlockMemoryArray.
Referenced by ecaggrCreateEmpty(), and nlrowaggrFree().
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adds a quadratic variable to an edge-concave aggregation
ecaggr | pointer to store the edge-concave aggregation |
x | first variable |
Definition at line 216 of file sepa_eccuts.c.
References ecaggrAddBilinTerm(), EcAggr::nvars, SCIP_OKAY, and EcAggr::vars.
Referenced by ecaggrFree(), and nlrowaggrCreate().
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adds a bilinear term to an edge-concave aggregation
scip | SCIP data structure |
ecaggr | pointer to store the edge-concave aggregation |
x | first variable |
y | second variable |
coef | bilinear coefficient |
Definition at line 227 of file sepa_eccuts.c.
References nlrowaggrStoreLinearTerms(), EcAggr::nterms, EcAggr::nvars, SCIP_OKAY, SCIPdebugMsg, SCIPdebugMsgPrint, SCIPisZero(), SCIPvarGetName(), EcAggr::termcoefs, EcAggr::termvars1, EcAggr::termvars2, and EcAggr::vars.
Referenced by ecaggrAddQuadvar(), and nlrowaggrCreate().
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stores linear terms in a given nonlinear row aggregation
scip | SCIP data structure |
nlrowaggr | nonlinear row aggregation |
linvars | linear variables |
lincoefs | linear coefficients |
nlinvars | number of linear variables |
Definition at line 301 of file sepa_eccuts.c.
References BMScopyMemoryArray, NlrowAggr::lincoefs, NlrowAggr::linvars, NlrowAggr::nlinvars, nlrowaggrStoreQuadraticVars(), NlrowAggr::rhsaggr, SCIP_CALL, SCIP_OKAY, and SCIPallocBlockMemoryArray.
Referenced by ecaggrAddBilinTerm(), and nlrowaggrCreate().
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stores quadratic variables in a given nonlinear row aggregation
scip | SCIP data structure |
nlrowaggr | nonlinear row aggregation |
quadvars | quadratic variables |
nquadvars | number of quadratic variables |
Definition at line 341 of file sepa_eccuts.c.
References BMScopyMemoryArray, nlrowaggrAddRemBilinTerm(), NlrowAggr::nquadvars, NlrowAggr::quadvars, SCIP_CALL, SCIP_OKAY, and SCIPallocBlockMemoryArray.
Referenced by nlrowaggrCreate(), and nlrowaggrStoreLinearTerms().
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adds a remaining bilinear term to a given nonlinear row aggregation
scip | SCIP data structure |
nlrowaggr | nonlinear row aggregation |
x | first variable |
y | second variable |
coef | bilinear coefficient |
Definition at line 362 of file sepa_eccuts.c.
References nlrowaggrCreate(), NlrowAggr::nremterms, NlrowAggr::remtermcoefs, NlrowAggr::remtermvars1, NlrowAggr::remtermvars2, and SCIP_OKAY.
Referenced by nlrowaggrCreate(), and nlrowaggrStoreQuadraticVars().
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creates a nonlinear row aggregation
scip | SCIP data structure |
nlrow | nonlinear row |
nlrowaggr | pointer to store the nonlinear row aggregation |
quadvar2aggr | mapping between quadratic variables and edge-concave aggregation stores a negative value if the quadratic variables does not belong to any aggregation |
nfound | number of edge-concave aggregations |
rhsaggr | consider nonlinear row aggregation for g(x) <= rhs (TRUE) or lhs <= g(x) (FALSE) |
Definition at line 385 of file sepa_eccuts.c.
References BMScopyMemoryArray, SCIP_QuadElement::coef, ecaggrAddBilinTerm(), ecaggrAddQuadvar(), ecaggrCreateEmpty(), SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, nlrowaggrAddRemBilinTerm(), nlrowaggrFree(), nlrowaggrStoreLinearTerms(), nlrowaggrStoreQuadraticVars(), SCIP_NlRow::nquadvars, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBlockMemory, SCIPallocBlockMemoryArray, SCIPallocBufferArray, SCIPdebugMsg, SCIPfreeBufferArray, SCIPisNegative(), SCIPnlrowGetConstant(), SCIPnlrowGetLhs(), SCIPnlrowGetLinearCoefs(), SCIPnlrowGetLinearVars(), SCIPnlrowGetNLinearVars(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadElems(), SCIPnlrowGetQuadVars(), and SCIPnlrowGetRhs().
Referenced by findAndStoreEcAggregations(), and nlrowaggrAddRemBilinTerm().
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frees a nonlinear row aggregation
scip | SCIP data structure |
nlrowaggr | pointer to free the nonlinear row aggregation |
Definition at line 546 of file sepa_eccuts.c.
References NlrowAggr::ecaggr, ecaggrFree(), NlrowAggr::lincoefs, NlrowAggr::linvars, NlrowAggr::necaggr, NlrowAggr::nlinvars, NlrowAggr::nremterms, NlrowAggr::remtermcoefs, NlrowAggr::remtermvars1, NlrowAggr::remtermvars2, NlrowAggr::rhs, SCIP_CALL, SCIP_OKAY, SCIPdebugMsg, SCIPdebugMsgPrint, SCIPfreeBlockMemory, SCIPfreeBlockMemoryArray, SCIPfreeBlockMemoryArrayNull, SCIPvarGetName(), and sepadataCreate().
Referenced by nlrowaggrCreate(), and sepadataFreeNlrows().
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creates separator data
scip | SCIP data structure |
sepadata | pointer to store separator data |
Definition at line 628 of file sepa_eccuts.c.
References BMSclearMemory, SCIP_CALL, SCIP_OKAY, SCIPallocBlockMemory, and sepadataFreeNlrows().
Referenced by nlrowaggrFree(), and SCIPincludeSepaEccuts().
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frees all nonlinear row aggregations
scip | SCIP data structure |
sepadata | pointer to store separator data |
Definition at line 644 of file sepa_eccuts.c.
References nlrowaggrFree(), SCIP_CALL, SCIP_OKAY, SCIPfreeBlockMemoryArray, and sepadataFree().
Referenced by sepadataCreate(), and sepadataFree().
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frees separator data
scip | SCIP data structure |
sepadata | pointer to store separator data |
Definition at line 674 of file sepa_eccuts.c.
References SCIP_CALL, SCIP_OKAY, SCIPfreeBlockMemory, SCIPlpiFree(), sepadataAddNlrowaggr(), and sepadataFreeNlrows().
Referenced by sepadataFreeNlrows().
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adds a nonlinear row aggregation to the separator data
scip | SCIP data structure |
sepadata | separator data |
nlrowaggr | non-linear row aggregation |
Definition at line 700 of file sepa_eccuts.c.
References NlrowAggr::ecaggr, MAX, NlrowAggr::necaggr, EcAggr::nvars, phi(), NlrowAggr::rhsaggr, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBlockMemoryArray, and SCIPreallocBlockMemoryArray.
Referenced by findAndStoreEcAggregations(), and sepadataFree().
returns min{val-lb,ub-val} / (ub-lb)
scip | SCIP data structure |
val | solution value |
lb | lower bound |
ub | upper bound |
Definition at line 744 of file sepa_eccuts.c.
References createMIP(), MAX, and SCIPisFeasEQ().
Referenced by doSeachEcAggr(), and sepadataAddNlrowaggr().
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creates an MIP to search for cycles with an odd number of positive edges in the graph representation of a nonlinear row; the model uses directed binary arc flow variables; we introduce for all quadratic elements a forward and backward edge; if the term is quadratic (e.g., loop in the graph) we fix the corresponding variables to zero; this leads to an easy mapping of quadratic elements and the variables of the MIP
scip | SCIP data structure |
subscip | auxiliary SCIP to search aggregations |
sepadata | separator data |
nlrow | nonlinear row |
rhsaggr | consider nonlinear row aggregation for g(x) <= rhs (TRUE) or lhs <= g(x) (FALSE) |
forwardarcs | array to store all forward arc variables |
backwardarcs | array to store all backward arc variables |
nodeweights | weights for each node of the graph |
nedges | pointer to store the number of nonexcluded edges in the graph |
Definition at line 767 of file sepa_eccuts.c.
References SCIP_QuadElement::coef, SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, narcs, nnodes, SCIP_CALL, SCIP_MAXSTRLEN, SCIP_OBJSENSE_MAXIMIZE, SCIP_OKAY, SCIP_Real, SCIP_VARTYPE_BINARY, SCIPaddCoefLinear(), SCIPaddCons(), SCIPaddVar(), SCIPallocBufferArray, SCIPcreateConsBasicLinear(), SCIPcreateConsBasicXor(), SCIPcreateProbBasic(), SCIPcreateVarBasic(), SCIPdebugMsg, SCIPfreeBufferArray, SCIPincludeDefaultPlugins(), SCIPisNegative(), SCIPisPositive(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadElems(), SCIPnlrowGetQuadVars(), SCIPreleaseCons(), SCIPsetObjsense(), SCIPsnprintf(), SCIPvarGetName(), TRUE, and updateMIP().
Referenced by doSeachEcAggr(), and phi().
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fixed all arc variables (u,v) for which u or v is already in an edge-concave aggregation
subscip | auxiliary SCIP to search aggregations |
nlrow | nonlinear row |
forwardarcs | forward arc variables |
backwardarcs | backward arc variables |
quadvar2aggr | mapping of quadvars to e.c. aggr. index (< 0: in no aggr.) |
nedges | pointer to store the number of nonexcluded edges |
Definition at line 924 of file sepa_eccuts.c.
References SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, SCIP_CALL, SCIP_OKAY, SCIPchgVarUb(), SCIPfreeTransform(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetQuadElems(), and storeAggrFromMIP().
Referenced by createMIP(), and doSeachEcAggr().
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stores the best edge-concave aggregation found by the MIP model
subscip | auxiliary SCIP to search aggregations |
nlrow | nonlinear row |
forwardarcs | forward arc variables |
backwardarcs | backward arc variables |
quadvar2aggr | mapping of quadvars to e.c. aggr. index (< 0: in no aggr.) |
nfoundsofar | number of e.c. aggregation found so far |
Definition at line 968 of file sepa_eccuts.c.
References SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, SCIP_OKAY, SCIP_STATUS_INFEASIBLE, SCIPgetBestSol(), SCIPgetNSols(), SCIPgetSolVal(), SCIPgetStatus(), SCIPisGT(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetQuadElems(), and searchEcAggrWithMIP().
Referenced by doSeachEcAggr(), and updateMIP().
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searches for edge-concave aggregations with an MIP model based on binary flow variables
subscip | SCIP data structure |
timelimit | time limit to solve the MIP |
nedges | number of nonexcluded undirected edges |
aggrleft | pointer to store if there might be a left aggregation |
found | pointer to store if we have found an aggregation |
Definition at line 1014 of file sepa_eccuts.c.
References createTcliqueGraph(), FALSE, SCIP_CALL, SCIP_OKAY, SCIP_PARAMSETTING_AGGRESSIVE, SCIP_STATUS_INFEASIBLE, SCIPgetBestSol(), SCIPgetNSols(), SCIPgetStatus(), SCIPisLE(), SCIPprintSol(), SCIPsetHeuristics(), SCIPsetIntParam(), SCIPsetLongintParam(), SCIPsetRealParam(), SCIPsolve(), SUBSCIP_NODELIMIT, and TRUE.
Referenced by doSeachEcAggr(), and storeAggrFromMIP().
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creates a tclique graph from a given nonlinear row
SCIP's clique code can only handle integer node weights; all node weights are scaled by a factor of 100; since the clique code ignores nodes with weight of zero, we add an offset of 100 to each weight
scip | SCIP data structure |
nlrow | nonlinear row |
graph | TCLIQUE graph structure |
nodeweights | weights for each quadratic variable (nodes in the graph) |
Definition at line 1080 of file sepa_eccuts.c.
References SCIP_QuadElement::coef, SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, SCIP_ERROR, SCIP_OKAY, SCIPdebugMsg, SCIPerrorMessage, SCIPisZero(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadElems(), SCIPnlrowGetQuadVars(), SCIPvarGetIndex(), SCIPvarGetName(), searchEcAggrWithCliques(), tcliqueAddEdge(), tcliqueAddNode(), tcliqueCreate(), and tcliqueFlush().
Referenced by doSeachEcAggr(), and searchEcAggrWithMIP().
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searches for edge-concave aggregations by computing cliques in the graph representation of a given nonlinear row update graph, compute clique, store clique; after computing a clique we heuristically check if the clique contains at least one good cycle
scip | SCIP data structure |
graph | TCLIQUE graph structure |
sepadata | separator data |
nlrow | nonlinear row |
quadvar2aggr | mapping of quadvars to e.c. aggr. index (< 0: in no aggr.) |
nfoundsofar | number of e.c. aggregation found so far |
rhsaggr | consider nonlinear row aggregation for g(x) <= rhs (TRUE) or lhs <= g(x) (FALSE) |
foundaggr | pointer to store if we have found an aggregation |
foundclique | pointer to store if we have found a clique |
Definition at line 1165 of file sepa_eccuts.c.
References BMSclearMemoryArray, CLIQUE_BACKTRACKFREQ, CLIQUE_MAXFIRSTNODEWEIGHT, CLIQUE_MAXNTREENODES, CLIQUE_MINWEIGHT, SCIP_QuadElement::coef, doSeachEcAggr(), FALSE, SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIPallocBufferArray, SCIPblkmem(), SCIPdebugMsg, SCIPfreeBufferArray, SCIPhashmapCreate(), SCIPhashmapExists(), SCIPhashmapFree(), SCIPhashmapInsert(), SCIPisNegative(), SCIPisPositive(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadElems(), TCLIQUE_OPTIMAL, tcliqueChangeWeight(), tcliqueMaxClique(), and TRUE.
Referenced by createTcliqueGraph(), and doSeachEcAggr().
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helper function for searchEcAggr()
scip | SCIP data structure |
subscip | sub-SCIP data structure |
sepadata | separator data |
nlrow | nonlinear row |
sol | current solution (might be NULL) |
rhsaggr | consider nonlinear row aggregation for g(x) <= rhs (TRUE) or g(x) >= lhs (FALSE) |
quadvar2aggr | array to store for each quadratic variable in which edge-concave aggregation it is stored (< 0: in no aggregation); size has to be at least SCIPnlrowGetNQuadVars(nlrow) |
nfound | pointer to store the number of found e.c. aggregations |
Definition at line 1284 of file sepa_eccuts.c.
References createMIP(), createTcliqueGraph(), phi(), SCIP_Bool, SCIP_CALL, SCIP_CALL_FINALLY, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPdebugMsg, SCIPfreeBufferArray, SCIPgetRealParam(), SCIPgetSolVal(), SCIPgetSolvingTime(), SCIPisInfinity(), SCIPisStopped(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadVars(), SCIPreleaseVar(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetUbLocal(), searchEcAggr(), searchEcAggrWithCliques(), searchEcAggrWithMIP(), storeAggrFromMIP(), tcliqueFree(), and updateMIP().
Referenced by searchEcAggr(), and searchEcAggrWithCliques().
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computes a partitioning into edge-concave aggregations for a given (quadratic) nonlinear row; each aggregation has to contain a cycle with an odd number of positive weighted edges (good cycles) in the corresponding graph representation
For this we use the following algorithm:
scip | SCIP data structure |
sepadata | separator data |
nlrow | nonlinear row |
sol | current solution (might be NULL) |
rhsaggr | consider nonlinear row aggregation for g(x) <= rhs (TRUE) or g(x) >= lhs (FALSE) |
quadvar2aggr | array to store for each quadratic variable in which edge-concave aggregation it is stored (< 0: in no aggregation); size has to be at least SCIPnlrowGetNQuadVars(nlrow) |
nfound | pointer to store the number of found e.c. aggregations |
Definition at line 1472 of file sepa_eccuts.c.
References doSeachEcAggr(), isCandidate(), SCIP_CALL, SCIP_CALL_FINALLY, SCIP_OKAY, SCIPcreate(), and SCIPfree().
Referenced by doSeachEcAggr(), and findAndStoreEcAggregations().
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returns whether a given nonlinear row can be used to compute edge-concave aggregations for which their convex envelope could dominate the termwise bilinear relaxation; this is the case if there exists at least one cycle with an odd number of positive edges in the corresponding graph representation of the nonlinear row
scip | SCIP data structure |
sepadata | separator data |
nlrow | nonlinear row representation of a nonlinear constraint |
rhscandidate | pointer to store if we should compute edge-concave aggregations for the <= rhs case |
lhscandidate | pointer to store if we should compute edge-concave aggregations for the >= lhs case |
Definition at line 1503 of file sepa_eccuts.c.
References BMSclearMemoryArray, SCIP_QuadElement::coef, FALSE, findAndStoreEcAggregations(), SCIP_QuadElement::idx1, SCIP_QuadElement::idx2, REALABS, SCIP_CALL, SCIP_OKAY, SCIPallocBufferArray, SCIPdebugMsg, SCIPfreeBufferArray, SCIPisEQ(), SCIPisInfinity(), SCIPisNegative(), SCIPisPositive(), SCIPnlrowGetExprtree(), SCIPnlrowGetLhs(), SCIPnlrowGetNQuadElems(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetQuadElems(), SCIPnlrowGetQuadVars(), SCIPnlrowGetRhs(), SCIPnlrowIsInNLP(), SCIPvarGetLbGlobal(), SCIPvarGetUbGlobal(), and TRUE.
Referenced by findAndStoreEcAggregations(), and searchEcAggr().
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finds and stores edge-concave aggregations for a given nonlinear row
scip | SCIP data structure |
sepadata | separator data |
nlrow | nonlinear row |
sol | current solution (might be NULL) |
Definition at line 1600 of file sepa_eccuts.c.
References checkRikun(), FALSE, isCandidate(), nlrowaggrCreate(), EcAggr::nvars, REALABS, SCIP_Bool, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPdebug, SCIPdebugMsg, SCIPdebugMsgPrint, SCIPfreeBufferArray, SCIPgetMessagehdlr(), SCIPisInfinity(), SCIPnlrowGetLhs(), SCIPnlrowGetNQuadVars(), SCIPnlrowGetRhs(), SCIPnlrowPrint(), SCIPvarGetName(), searchEcAggr(), sepadataAddNlrowaggr(), TRUE, and EcAggr::vars.
Referenced by isCandidate().
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checks if a facet is really an underestimate for all corners of the domain [l,u]; because of numerics it can happen that a facet violates a corner of the domain; to make the facet valid we subtract the maximum violation from the constant part of the facet; its a good excersise to write a comment describing the gray code...
scip | SCIP data structure |
ecaggr | edge-concave aggregation data |
fvals | array containing all corner values of the aggregation |
facet | current facet candidate (of dimension ecaggr->nvars + 1) |
Definition at line 1699 of file sepa_eccuts.c.
References ADJUSTFACETTOL, createLP(), FALSE, MAX, EcAggr::nvars, poweroftwo, SCIP_Real, SCIPdebugMsg, SCIPisFeasEQ(), SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), TRUE, and EcAggr::vars.
Referenced by findAndStoreEcAggregations(), and SCIPcomputeConvexEnvelopeFacet().
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set up LP interface to solve LPs to compute the facet of the convex envelope
scip | SCIP data structure |
sepadata | separation data |
Definition at line 1771 of file sepa_eccuts.c.
References evalCorner(), poweroftwo, SCIP_CALL, SCIP_OBJSEN_MINIMIZE, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPdebugMsg, SCIPfreeBufferArray, SCIPgetMessagehdlr(), SCIPlpiAddCols(), SCIPlpiAddRows(), SCIPlpiCreate(), and SCIPlpiFree().
Referenced by checkRikun(), and SCIPcomputeConvexEnvelopeFacet().
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evaluates an edge-concave aggregation at a corner of the domain [l,u]
ecaggr | edge-concave aggregation data |
k | k-th corner |
Definition at line 1883 of file sepa_eccuts.c.
References EcAggr::nterms, EcAggr::nvars, poweroftwo, SCIP_Real, SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), EcAggr::termcoefs, EcAggr::termvars1, EcAggr::termvars2, transformValue(), and EcAggr::vars.
Referenced by createLP(), and SCIPcomputeConvexEnvelopeFacet().
returns (val - lb) / (ub - lb) for a in [lb, ub]
scip | SCIP data structure |
lb | lower bound |
ub | upper bound |
val | value in [lb,ub] |
Definition at line 1921 of file sepa_eccuts.c.
References MAX, REALABS, SCIPcomputeConvexEnvelopeFacet(), SCIPisFeasEQ(), and SCIPisInfinity().
Referenced by evalCorner(), and SCIPcomputeConvexEnvelopeFacet().
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computes a facet of the convex envelope of an edge concave aggregation
The algorithm solves the following LP:
\begin{eqnarray} min & \sum_i \lambda_i f(v_i)\\ s.t. & \sum_i \lambda_i v_i = x\\ & \sum_i \lambda_i = 1\\ & \lambda_i \geq 0 \end{eqnarray}
where f is an edge concave function, \(x\) in \([l,u]\) is a solution of the current relaxation, and \(v_i\) are the vertices of \([l,u]\); the method transforms the problem to the domain \([0,1]^n\), computes a facet, and transforms this facet to the original space; the dual solution of the LP above are the coefficients of the facet
The complete algorithm works as follows:
scip | SCIP data structure |
sepadata | separation data |
sol | solution (might be NULL) |
ecaggr | edge-concave aggregation data |
facet | array to store the coefficients of the resulting facet; size has to be at least (ecaggr->nvars + 1) |
facetval | pointer to store the value of the facet evaluated at the current solution |
success | pointer to store if we have found a facet |
Definition at line 1966 of file sepa_eccuts.c.
References addFacetToCut(), checkRikun(), createLP(), evalCorner(), FALSE, EcAggr::nvars, poweroftwo, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPallocBufferArray, SCIPdebugMsg, SCIPdebugMsgPrint, SCIPfreeBufferArray, SCIPgetSolVal(), SCIPinfinity(), SCIPisEQ(), SCIPlpiChgBounds(), SCIPlpiChgObj(), SCIPlpiChgSides(), SCIPlpiGetNCols(), SCIPlpiGetNRows(), SCIPlpiGetSol(), SCIPlpiSolveDual(), SCIPlpiSolvePrimal(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetUbLocal(), transformValue(), TRUE, USEDUALSIMPLEX, and EcAggr::vars.
Referenced by computeCut(), and transformValue().
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method to add a facet of the convex envelope of an edge-concave aggregation to a given cut
scip | SCIP data structure |
sol | current solution (might be NULL) |
cut | current cut (modifiable) |
facet | coefficient of the facet (dimension nvars + 1) |
vars | variables of the facet |
nvars | number of variables in the facet |
cutconstant | pointer to update the constant part of the facet |
cutactivity | pointer to update the activity of the cut |
success | pointer to store if everything went fine |
Definition at line 2174 of file sepa_eccuts.c.
References addLinearTermToCut(), FALSE, EcAggr::nvars, REALABS, SCIP_CALL, SCIP_OKAY, SCIPaddVarToRow(), SCIPgetSolVal(), SCIPisFeasEQ(), SCIPisInfinity(), SCIPisZero(), SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), and TRUE.
Referenced by computeCut(), and SCIPcomputeConvexEnvelopeFacet().
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method to add an linear term to a given cut
scip | SCIP data structure |
sol | current solution (might be NULL) |
cut | current cut (modifiable) |
x | linear variable |
coeff | coefficient |
cutconstant | pointer to update the constant part of the facet |
cutactivity | pointer to update the activity of the cut |
success | pointer to store if everything went fine |
Definition at line 2232 of file sepa_eccuts.c.
References addBilinearTermToCut(), FALSE, REALABS, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPaddVarToRow(), SCIPdebugMsg, SCIPgetSolVal(), SCIPisFeasEQ(), SCIPisInfinity(), SCIPisZero(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetUbLocal(), and TRUE.
Referenced by addFacetToCut(), and computeCut().
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method to add an underestimate of a bilinear term to a given cut
scip | SCIP data structure |
sol | current solution (might be NULL) |
cut | current cut (modifiable) |
x | first bilinear variable |
y | seconds bilinear variable |
coeff | coefficient |
cutconstant | pointer to update the constant part of the facet |
cutactivity | pointer to update the activity of the cut |
success | pointer to store if everything went fine |
Definition at line 2283 of file sepa_eccuts.c.
References computeCut(), FALSE, REALABS, SCIP_CALL, SCIP_OKAY, SCIP_Real, SCIPaddBilinMcCormick(), SCIPaddSquareLinearization(), SCIPaddSquareSecant(), SCIPaddVarToRow(), SCIPdebugMsg, SCIPgetSolVal(), SCIPisGE(), SCIPisGT(), SCIPisInfinity(), SCIPisLE(), SCIPisLT(), SCIPisPositive(), SCIPisZero(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetUbLocal(), SCIPvarIsIntegral(), and TRUE.
Referenced by addLinearTermToCut(), and computeCut().
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method to compute and and a cut for a nonlinear row aggregation and a given solution; we compute for each edge concave aggregation one facet; the remaining bilinear terms will be underestimated with McCormick, secants or linearizations; constant and linear terms will be added to the cut directly
scip | SCIP data structure |
sepa | separator |
sepadata | separator data |
nlrowaggr | nonlinear row aggregation |
sol | current solution (might be NULL) |
separated | pointer to store if we could separate the current solution |
cutoff | pointer to store if the current node gets cut off |
Definition at line 2395 of file sepa_eccuts.c.
References addBilinearTermToCut(), addFacetToCut(), addLinearTermToCut(), NlrowAggr::constant, NlrowAggr::ecaggr, FALSE, isPossibleToComputeCut(), NlrowAggr::lincoefs, NlrowAggr::linvars, NlrowAggr::necaggr, NlrowAggr::nlinvars, NlrowAggr::nlrow, NlrowAggr::nremterms, EcAggr::nvars, NlrowAggr::remtermcoefs, NlrowAggr::remtermvars1, NlrowAggr::remtermvars2, NlrowAggr::rhs, SCIP_Bool, SCIP_CALL, SCIP_MAXSTRLEN, SCIP_OKAY, SCIP_Real, SCIPaddPoolCut(), SCIPaddRow(), SCIPallocBufferArray, SCIPcacheRowExtensions(), SCIPchgRowRhs(), SCIPcomputeConvexEnvelopeFacet(), SCIPcreateEmptyRowSepa(), SCIPdebugMsg, SCIPflushRowExtensions(), SCIPfreeBufferArray, SCIPgetCutEfficacy(), SCIPgetDepth(), SCIPgetMessagehdlr(), SCIPgetNVars(), SCIPgetRowMaxCoef(), SCIPgetRowMinCoef(), SCIPgetRowSolActivity(), SCIPgetSolVal(), SCIPgetVars(), SCIPinfinity(), SCIPisCutEfficacious(), SCIPisGE(), SCIPisInfinity(), SCIPnlrowIsInNLP(), SCIPnlrowPrint(), SCIPprintRow(), SCIPreleaseRow(), SCIProwGetName(), SCIProwGetRank(), SCIPsnprintf(), SCIPvarGetLbLocal(), SCIPvarGetName(), SCIPvarGetUbLocal(), TRUE, and EcAggr::vars.
Referenced by addBilinearTermToCut(), and separateCuts().
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returns whether it is possible to compute a cut for a given nonlinear row aggregation
scip | SCIP data structure |
sol | current solution (might be NULL) |
nlrowaggr | nonlinear row aggregation |
Definition at line 2569 of file sepa_eccuts.c.
References FALSE, NlrowAggr::nlrow, NlrowAggr::nquadvars, NlrowAggr::quadvar2aggr, NlrowAggr::quadvars, REALABS, SCIPdebugMsg, SCIPgetSolVal(), SCIPisFeasEQ(), SCIPisInfinity(), SCIPnlrowIsInNLP(), SCIPvarGetLbLocal(), SCIPvarGetUbLocal(), separateCuts(), and TRUE.
Referenced by computeCut(), and separateCuts().
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searches and tries to add edge-concave cuts
scip | SCIP data structure |
sepa | separator |
sepadata | separator data |
sol | current solution |
result | pointer to store the result of the separation call |
Definition at line 2612 of file sepa_eccuts.c.
References computeCut(), isPossibleToComputeCut(), SCIP_Bool, SCIP_CALL, SCIP_CUTOFF, SCIP_DECL_SEPACOPY(), SCIP_DIDNOTFIND, SCIP_DIDNOTRUN, SCIP_OKAY, SCIP_SEPARATED, SCIPdebugMsg, SCIPgetDepth(), and SCIPisStopped().
Referenced by isPossibleToComputeCut().
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copy method for separator plugins (called when SCIP copies plugins)
Definition at line 2687 of file sepa_eccuts.c.
Referenced by separateCuts().
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destructor of separator to free user data (called when SCIP is exiting)
Definition at line 2701 of file sepa_eccuts.c.
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solving process deinitialization method of separator (called before branch and bound process data is freed)
Definition at line 2716 of file sepa_eccuts.c.
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LP solution separation method of separator
Definition at line 2743 of file sepa_eccuts.c.
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first values for 2^n
Definition at line 71 of file sepa_eccuts.c.
Referenced by checkRikun(), createLP(), evalCorner(), and SCIPcomputeConvexEnvelopeFacet().