Cbc trunk
CbcModel Member List
This is the complete list of members for CbcModel, including all inherited members.
addCutGenerator(CglCutGenerator *generator, int howOften=1, const char *name=NULL, bool normal=true, bool atSolution=false, bool infeasible=false, int howOftenInSub=-100, int whatDepth=-1, int whatDepthInSub=-1)CbcModel
addCuts(CbcNode *node, CoinWarmStartBasis *&lastws, bool canFix)CbcModel
addCuts1(CbcNode *node, CoinWarmStartBasis *&lastws)CbcModel
addedCuts() const CbcModel [inline]
addHeuristic(CbcHeuristic *generator, const char *name=NULL, int before=-1)CbcModel
AddIntegers()CbcModel
addObjects(int numberObjects, OsiObject **objects)CbcModel
addObjects(int numberObjects, CbcObject **objects)CbcModel
addUpdateInformation(const CbcObjectUpdateData &data)CbcModel
adjustHeuristics()CbcModel
allDynamic() const CbcModel [inline]
analyzeObjective()CbcModel
assignSolver(OsiSolverInterface *&solver, bool deleteSolver=true)CbcModel
bestSolution() const CbcModel [inline]
branchAndBound(int doStatistics=0)CbcModel
branchingMethod() const CbcModel [inline]
CbcAllowableFractionGap enum valueCbcModel
CbcAllowableGap enum valueCbcModel
CbcCurrentCutoff enum valueCbcModel
CbcCurrentMinimizationObjectiveValue enum valueCbcModel
CbcCurrentObjectiveValue enum valueCbcModel
CbcCutoffIncrement enum valueCbcModel
CbcDblParam enum nameCbcModel
CbcFathomDiscipline enum valueCbcModel
CbcHeuristicFractionGap enum valueCbcModel
CbcHeuristicGap enum valueCbcModel
CbcInfeasibilityWeight enum valueCbcModel
CbcIntegerTolerance enum valueCbcModel
CbcIntParam enum nameCbcModel
CbcLargestChange enum valueCbcModel
CbcLastDblParam enum valueCbcModel
CbcLastIntParam enum valueCbcModel
CbcMaximumSeconds enum valueCbcModel
CbcMaxNumNode enum valueCbcModel
CbcMaxNumSol enum valueCbcModel
CbcModel()CbcModel
CbcModel(const OsiSolverInterface &)CbcModel
CbcModel(const CbcModel &rhs, bool cloneHandler=false)CbcModel
CbcNumberBranches enum valueCbcModel
CbcOptimizationDirection enum valueCbcModel
CbcPrinting enum valueCbcModel
CbcSmallChange enum valueCbcModel
CbcSmallestChange enum valueCbcModel
CbcStartSeconds enum valueCbcModel
CbcSumChange enum valueCbcModel
checkModel()CbcModel
checkSolution(double cutoff, double *solution, int fixVariables, double originalObjValue)CbcModel
chooseBranch(CbcNode *&newNode, int numberPassesLeft, CbcNode *oldNode, OsiCuts &cuts, bool &resolved, CoinWarmStartBasis *lastws, const double *lowerBefore, const double *upperBefore, OsiSolverBranch *&branches)CbcModel
chooseBranch(CbcNode *newNode, int numberPassesLeft, bool &resolved)CbcModel
clearContinuousSolver()CbcModel [inline]
clearNumberGlobalViolations()CbcModel [inline]
cliquePseudoCosts(int doStatistics)CbcModel
continuousPriority() const CbcModel [inline]
continuousSolution() const CbcModel [inline]
continuousSolver() const CbcModel [inline]
convertToDynamic()CbcModel
createContinuousSolver()CbcModel [inline]
currentDepth() const CbcModel [inline]
currentNode() const CbcModel [inline]
currentNumberCuts() const CbcModel [inline]
currentSolution() const CbcModel [inline]
cutGenerator(int i) const CbcModel [inline]
cutGenerators() const CbcModel [inline]
cutModifier() const CbcModel [inline]
dealWithEventHandler(CbcEventHandler::CbcEvent event, double objValue, const double *solution)CbcModel
deleteObjects(bool findIntegers=true)CbcModel
deleteSolutions()CbcModel
doCutsNow(int allowForTopOfTree) const CbcModel
doHeuristicsAtRoot(int deleteHeuristicsAfterwards=0)CbcModel
doOneNode(CbcModel *baseModel, CbcNode *&node, CbcNode *&newNode)CbcModel
fastNodeDepth() const CbcModel [inline]
feasibleSolution(int &numberIntegerInfeasibilities, int &numberObjectInfeasibilities) const CbcModel
fillPseudoCosts(double *downCosts, double *upCosts, int *priority=NULL, int *numberDown=NULL, int *numberUp=NULL, int *numberDownInfeasible=NULL, int *numberUpInfeasible=NULL) const CbcModel
findCliques(bool makeEquality, int atLeastThisMany, int lessThanThis, int defaultValue=1000)CbcModel
findIntegers(bool startAgain, int type=0)CbcModel
generateCpp(FILE *fp, int options)CbcModel
getAllowableFractionGap() const CbcModel [inline]
getAllowableGap() const CbcModel [inline]
getAllowablePercentageGap() const CbcModel [inline]
getApplicationData() const CbcModel
getBestPossibleObjValue() const CbcModel
getCbcColLower() const CbcModel [inline]
getCbcColSolution() const CbcModel [inline]
getCbcColUpper() const CbcModel [inline]
getCbcReducedCost() const CbcModel [inline]
getCbcRowActivity() const CbcModel [inline]
getCbcRowLower() const CbcModel [inline]
getCbcRowPrice() const CbcModel [inline]
getCbcRowUpper() const CbcModel [inline]
getColLower() const CbcModel [inline]
getColSolution() const CbcModel [inline]
getColUpper() const CbcModel [inline]
getContinuousInfeasibilities() const CbcModel [inline]
getContinuousObjective() const CbcModel [inline]
getCurrentMinimizationObjValue() const CbcModel [inline]
getCurrentObjValue() const CbcModel [inline]
getCurrentPassNumber() const CbcModel [inline]
getCurrentSeconds() const CbcModel
getCutoff() const CbcModel [inline]
getCutoffIncrement() const CbcModel [inline]
getDblParam(CbcDblParam key) const CbcModel [inline]
getEmptyBasis(int ns=0, int na=0) const CbcModel
getEventHandler() const CbcModel [inline]
getHeuristicFractionGap() const CbcModel [inline]
getHeuristicGap() const CbcModel [inline]
getInfeasibilityWeight() const CbcModel [inline]
getInfinity() const CbcModel [inline]
getIntegerTolerance() const CbcModel [inline]
getIntParam(CbcIntParam key) const CbcModel [inline]
getIterationCount() const CbcModel [inline]
getMatrixByCol() const CbcModel [inline]
getMatrixByRow() const CbcModel [inline]
getMaximumCutPasses() const CbcModel [inline]
getMaximumCutPassesAtRoot() const CbcModel [inline]
getMaximumNodes() const CbcModel [inline]
getMaximumSeconds() const CbcModel [inline]
getMaximumSolutions() const CbcModel [inline]
getMinimizationObjValue() const CbcModel [inline]
getMinimumDrop() const CbcModel [inline]
getNodeCount() const CbcModel [inline]
getNodeCount2() const CbcModel [inline]
getNumberHeuristicSolutions() const CbcModel [inline]
getNumberThreads() const CbcModel [inline]
getNumCols() const CbcModel [inline]
getNumElements() const CbcModel [inline]
getNumRows() const CbcModel [inline]
getObjCoefficients() const CbcModel [inline]
getObjSense() const CbcModel [inline]
getObjValue() const CbcModel [inline]
getPreferredWay() const CbcModel [inline]
getPrintingMode() const CbcModel [inline]
getReducedCost() const CbcModel [inline]
getRightHandSide() const CbcModel [inline]
getRowActivity() const CbcModel [inline]
getRowLower() const CbcModel [inline]
getRowPrice() const CbcModel [inline]
getRowRange() const CbcModel [inline]
getRowSense() const CbcModel [inline]
getRowUpper() const CbcModel [inline]
getSolutionCount() const CbcModel [inline]
getSolverObjValue() const CbcModel [inline]
getStopNumberIterations() const CbcModel [inline]
getThreadMode() const CbcModel [inline]
globalCuts()CbcModel [inline]
goToDantzig(int numberNodes, ClpDualRowPivot *&savePivotMethod)CbcModel
gutsOfCopy(const CbcModel &rhs, int mode=0)CbcModel
gutsOfDestructor()CbcModel
gutsOfDestructor2()CbcModel
heuristic(int i) const CbcModel [inline]
hotstartPriorities() const CbcModel [inline]
hotstartSolution() const CbcModel [inline]
howOftenGlobalScan() const CbcModel [inline]
incrementExtra(int nodes, int iterations)CbcModel [inline]
incrementIterationCount(int value)CbcModel [inline]
incrementNodeCount(int value)CbcModel [inline]
incrementStrongInfo(int numberTimes, int numberIterations, int numberFixed, bool ifInfeasible)CbcModel
incrementSubTreeStopped()CbcModel [inline]
incrementUsed(const double *solution)CbcModel
initialSolve()CbcModel
integerPresolve(bool weak=false)CbcModel
integerPresolveThisModel(OsiSolverInterface *originalSolver, bool weak=false)CbcModel
integerType(int i) const CbcModel [inline]
integerType() const CbcModel [inline]
integerVariable() const CbcModel [inline]
isAbandoned() const CbcModel
isBinary(int colIndex) const CbcModel [inline]
isContinuous(int colIndex) const CbcModel [inline]
isContinuousUnbounded() const CbcModel
isFreeBinary(int colIndex) const CbcModel [inline]
isInitialSolveAbandoned() const CbcModel
isInitialSolveProvenDualInfeasible() const CbcModel
isInitialSolveProvenOptimal() const CbcModel
isInitialSolveProvenPrimalInfeasible() const CbcModel
isInteger(int colIndex) const CbcModel [inline]
isIntegerNonBinary(int colIndex) const CbcModel [inline]
isLocked() const CbcModel
isNodeLimitReached() const CbcModel
isProvenDualInfeasible() const CbcModel
isProvenInfeasible() const CbcModel
isProvenOptimal() const CbcModel
isSecondsLimitReached() const CbcModel
isSolutionLimitReached() const CbcModel
lastHeuristic() const CbcModel [inline]
lockThread()CbcModel [inline]
logLevel() const CbcModel [inline]
makeGlobalCut(const OsiRowCut *cut)CbcModel
makeGlobalCut(const OsiRowCut &cut)CbcModel
makeGlobalCut(const OsiColCut *cut)CbcModel
makeGlobalCut(const OsiColCut &cut)CbcModel
makeGlobalCuts(int numberRows, const int *which)CbcModel
masterThread() const CbcModel [inline]
maximumNumberIterations() const CbcModel [inline]
maximumRows() const CbcModel [inline]
maximumSavedSolutions() const CbcModel [inline]
maximumSecondsReached() const CbcModel
mergeModels(int numberModel, CbcModel **model, int numberNodes)CbcModel
messageHandler() const CbcModel [inline]
messages()CbcModel [inline]
messagesPointer()CbcModel [inline]
modelOwnsSolver()CbcModel [inline]
modifiableObject(int which) const CbcModel [inline]
moreSpecialOptions() const CbcModel [inline]
moveInfo(const CbcModel &rhs)CbcModel
moveToModel(CbcModel *baseModel, int mode)CbcModel
mutableStrongInfo()CbcModel [inline]
newLanguage(CoinMessages::Language language)CbcModel
nodeComparison() const CbcModel [inline]
normalSolver() const CbcModel [inline]
numberAnalyzeIterations() const CbcModel [inline]
numberBeforeTrust() const CbcModel [inline]
numberCutGenerators() const CbcModel [inline]
numberExtraIterations() const CbcModel [inline]
numberGlobalViolations() const CbcModel [inline]
numberHeuristics() const CbcModel [inline]
numberIntegers() const CbcModel [inline]
numberObjects() const CbcModel [inline]
numberPenalties() const CbcModel [inline]
numberRowsAtContinuous() const CbcModel [inline]
numberSavedSolutions() const CbcModel
numberStoppedSubTrees() const CbcModel [inline]
numberStrong() const CbcModel [inline]
numberStrongIterations() const CbcModel [inline]
object(int which) const CbcModel [inline]
objects() const CbcModel [inline]
operator=(const CbcModel &rhs)CbcModel
originalColumns() const CbcModel [inline]
originalModel(CbcModel *presolvedModel, bool weak)CbcModel
ownObjects() const CbcModel [inline]
parallelMode() const CbcModel [inline]
parentModel() const CbcModel [inline]
passInEventHandler(const CbcEventHandler *eventHandler)CbcModel
passInMessageHandler(CoinMessageHandler *handler)CbcModel
passInPriorities(const int *priorities, bool ifNotSimpleIntegers)CbcModel
passInSolverCharacteristics(OsiBabSolver *solverCharacteristics)CbcModel
passInSubTreeModel(CbcModel &model)CbcModel
passInTreeHandler(CbcTree &tree)CbcModel
penaltyScaleFactor() const CbcModel [inline]
phase() const CbcModel [inline]
previousBounds(CbcNode *node, CbcNodeInfo *where, int iColumn, double &lower, double &upper, int force)CbcModel
printFrequency() const CbcModel [inline]
priority(int sequence) const CbcModel [inline]
probingInfo() const CbcModel [inline]
problemFeasibility() const CbcModel [inline]
problemType() const CbcModel [inline]
pseudoShadow(int type)CbcModel
randomNumberGenerator()CbcModel [inline]
redoWalkBack()CbcModel
reducedCostFix()CbcModel
referenceSolver() const CbcModel [inline]
reserveCurrentSolution(const double *solution=NULL)CbcModel
resetModel()CbcModel
resetToReferenceSolver()CbcModel
resolve(CbcNodeInfo *parent, int whereFrom, double *saveSolution=NULL, double *saveLower=NULL, double *saveUpper=NULL)CbcModel
resolve(OsiSolverInterface *solver)CbcModel
resolveAfterTakeOffCuts() const CbcModel [inline]
rootObjectiveAfterCuts() const CbcModel [inline]
saveBestSolution(const double *solution, double objectiveValue)CbcModel
savedSolution(int which) const CbcModel
savedSolutionObjective(int which) const CbcModel
saveExtraSolution(const double *solution, double objectiveValue)CbcModel
saveModel(OsiSolverInterface *saveSolver, double *checkCutoffForRestart, bool *feasible)CbcModel
saveReferenceSolver()CbcModel
searchStrategy() const CbcModel [inline]
secondaryStatus() const CbcModel [inline]
setAllowableFractionGap(double value)CbcModel [inline]
setAllowableGap(double value)CbcModel [inline]
setAllowablePercentageGap(double value)CbcModel [inline]
setApplicationData(void *appData)CbcModel
setBestObjectiveValue(double objectiveValue)CbcModel
setBestSolution(CBC_Message how, double &objectiveValue, const double *solution, int fixVariables=0)CbcModel
setBestSolution(const double *solution, int numberColumns, double objectiveValue, bool check=false)CbcModel
setBestSolutionBasis(const CoinWarmStartBasis &bestSolutionBasis)CbcModel [inline]
setBranchingMethod(CbcBranchDecision *method)CbcModel [inline]
setBranchingMethod(CbcBranchDecision &method)CbcModel [inline]
setContinuousInfeasibilities(int value)CbcModel [inline]
setContinuousObjective(double value)CbcModel [inline]
setContinuousPriority(int value)CbcModel [inline]
setCutModifier(CbcCutModifier *modifier)CbcModel
setCutModifier(CbcCutModifier &modifier)CbcModel
setCutoff(double value)CbcModel
setCutoffIncrement(double value)CbcModel [inline]
setDblParam(CbcDblParam key, double value)CbcModel [inline]
setDefaultHandler(bool yesNo)CbcModel [inline]
setFastNodeDepth(int value)CbcModel [inline]
setHeuristicFractionGap(double value)CbcModel [inline]
setHeuristicGap(double value)CbcModel [inline]
setHotstartSolution(const double *solution, const int *priorities=NULL)CbcModel
setHowOftenGlobalScan(int number)CbcModel
setInfeasibilityWeight(double value)CbcModel [inline]
setInfoInChild(int type, CbcThread *info)CbcModel
setIntegerTolerance(double value)CbcModel [inline]
setIntParam(CbcIntParam key, int value)CbcModel [inline]
setLanguage(CoinMessages::Language language)CbcModel [inline]
setLastHeuristic(CbcHeuristic *last)CbcModel [inline]
setLogLevel(int value)CbcModel
setMaximumCutPasses(int value)CbcModel [inline]
setMaximumCutPassesAtRoot(int value)CbcModel [inline]
setMaximumNodes(int value)CbcModel [inline]
setMaximumNumberIterations(int value)CbcModel [inline]
setMaximumSavedSolutions(int value)CbcModel
setMaximumSeconds(double value)CbcModel [inline]
setMaximumSolutions(int value)CbcModel [inline]
setMinimizationObjValue(double value)CbcModel [inline]
setMinimumDrop(double value)CbcModel [inline]
setModelOwnsSolver(bool ourSolver)CbcModel [inline]
setMoreSpecialOptions(int value)CbcModel [inline]
setNextRowCut(const OsiRowCut &cut)CbcModel
setNodeComparison(CbcCompareBase *compare)CbcModel
setNodeComparison(CbcCompareBase &compare)CbcModel
setNumberAnalyzeIterations(int number)CbcModel [inline]
setNumberBeforeTrust(int number)CbcModel
setNumberHeuristicSolutions(int value)CbcModel [inline]
setNumberObjects(int number)CbcModel [inline]
setNumberPenalties(int number)CbcModel
setNumberStrong(int number)CbcModel
setNumberStrongIterations(int number)CbcModel [inline]
setNumberThreads(int value)CbcModel [inline]
setObjectiveValue(CbcNode *thisNode, const CbcNode *parentNode) const CbcModel
setObjSense(double s)CbcModel [inline]
setObjValue(double value)CbcModel [inline]
setOptionalInteger(int index)CbcModel
setOriginalColumns(const int *originalColumns)CbcModel
setParentModel(CbcModel &parentModel)CbcModel [inline]
setPenaltyScaleFactor(double value)CbcModel
setPointers(const OsiSolverInterface *solver)CbcModel
setPreferredWay(int value)CbcModel [inline]
setPrintFrequency(int number)CbcModel [inline]
setPrintingMode(int value)CbcModel [inline]
setProblemFeasibility(CbcFeasibilityBase *feasibility)CbcModel
setProblemFeasibility(CbcFeasibilityBase &feasibility)CbcModel
setProblemStatus(int value)CbcModel [inline]
setProblemType(int number)CbcModel [inline]
setResolveAfterTakeOffCuts(bool yesNo)CbcModel [inline]
setSearchStrategy(int value)CbcModel [inline]
setSecondaryStatus(int value)CbcModel [inline]
setSolutionCount(int value)CbcModel [inline]
setSpecialOptions(int value)CbcModel [inline]
setStateOfSearch(int state)CbcModel [inline]
setStopNumberIterations(int value)CbcModel [inline]
setStoredRowCuts(CglStored *cuts)CbcModel [inline]
setStrategy(CbcStrategy &strategy)CbcModel
setStrategy(CbcStrategy *strategy)CbcModel [inline]
setTestSolution(const double *solution)CbcModel [inline]
setThreadMode(int value)CbcModel [inline]
setTypePresolve(int value)CbcModel [inline]
setUseElapsedTime(bool yesNo)CbcModel [inline]
setWhenCuts(int value)CbcModel [inline]
solver() const CbcModel [inline]
solverCharacteristics() const CbcModel [inline]
specialOptions() const CbcModel [inline]
splitModel(int numberModels, CbcModel **model, int numberNodes)CbcModel
startSplitModel(int numberIterations)CbcModel
stateOfSearch() const CbcModel [inline]
status() const CbcModel [inline]
storedRowCuts() const CbcModel [inline]
strategy() const CbcModel [inline]
strongInfo() const CbcModel [inline]
subTreeModel(OsiSolverInterface *solver=NULL) const CbcModel
sumChangeObjective() const CbcModel [inline]
swapSolver(OsiSolverInterface *solver)CbcModel [inline]
synchronizeHandlers(int makeDefault)CbcModel
synchronizeModel()CbcModel
synchronizeNumberBeforeTrust(int type=0)CbcModel
takeOffCuts(OsiCuts &cuts, bool allowResolve, OsiCuts *saveCuts, int numberNewCuts=0, const OsiRowCut **newCuts=NULL)CbcModel
testSolution() const CbcModel [inline]
tightenVubs(int type, bool allowMultipleBinary=false, double useCutoff=1.0e50)CbcModel
tightenVubs(int numberVubs, const int *which, double useCutoff=1.0e50)CbcModel
tree() const CbcModel [inline]
typePresolve() const CbcModel [inline]
unlockThread()CbcModel [inline]
usedInSolution() const CbcModel [inline]
useElapsedTime() const CbcModel [inline]
usefulInformation() const CbcModel
virginCutGenerator(int i) const CbcModel [inline]
walkback() const CbcModel [inline]
whenCuts() const CbcModel [inline]
workingBasis()CbcModel [inline]
zapIntegerInformation(bool leaveObjects=true)CbcModel
~CbcModel()CbcModel
 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Friends Defines