Cbc trunk
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Simple Branch and bound class. More...
#include <CbcModel.hpp>
Public Types | |
enum | CbcIntParam { CbcMaxNumNode = 0, CbcMaxNumSol, CbcFathomDiscipline, CbcPrinting, CbcNumberBranches, CbcLastIntParam } |
enum | CbcDblParam { CbcIntegerTolerance = 0, CbcInfeasibilityWeight, CbcCutoffIncrement, CbcAllowableGap, CbcAllowableFractionGap, CbcMaximumSeconds, CbcCurrentCutoff, CbcOptimizationDirection, CbcCurrentObjectiveValue, CbcCurrentMinimizationObjectiveValue, CbcStartSeconds, CbcHeuristicGap, CbcHeuristicFractionGap, CbcSmallestChange, CbcSumChange, CbcLargestChange, CbcSmallChange, CbcLastDblParam } |
Public Member Functions | |
Presolve methods | |
CbcModel * | findCliques (bool makeEquality, int atLeastThisMany, int lessThanThis, int defaultValue=1000) |
Identify cliques and construct corresponding objects. | |
CbcModel * | integerPresolve (bool weak=false) |
Do integer presolve, creating a new (presolved) model. | |
bool | integerPresolveThisModel (OsiSolverInterface *originalSolver, bool weak=false) |
Do integer presolve, modifying the current model. | |
void | originalModel (CbcModel *presolvedModel, bool weak) |
Put back information into the original model after integer presolve. | |
bool | tightenVubs (int type, bool allowMultipleBinary=false, double useCutoff=1.0e50) |
For variables involved in VUB constraints, see if we can tighten bounds by solving lp's. | |
bool | tightenVubs (int numberVubs, const int *which, double useCutoff=1.0e50) |
For variables involved in VUB constraints, see if we can tighten bounds by solving lp's. | |
void | analyzeObjective () |
Analyze problem to find a minimum change in the objective function. | |
void | AddIntegers () |
Add additional integers. | |
void | saveModel (OsiSolverInterface *saveSolver, double *checkCutoffForRestart, bool *feasible) |
Save copy of the model. | |
Object manipulation routines | |
See OsiObject for an explanation of `object' in the context of CbcModel. | |
int | numberObjects () const |
Get the number of objects. | |
void | setNumberObjects (int number) |
Set the number of objects. | |
OsiObject ** | objects () const |
Get the array of objects. | |
const OsiObject * | object (int which) const |
Get the specified object. | |
OsiObject * | modifiableObject (int which) const |
Get the specified object. | |
void | setOptionalInteger (int index) |
void | deleteObjects (bool findIntegers=true) |
Delete all object information (and just back to integers if true) | |
void | addObjects (int numberObjects, OsiObject **objects) |
Add in object information. | |
void | addObjects (int numberObjects, CbcObject **objects) |
Add in object information. | |
void | synchronizeModel () |
Ensure attached objects point to this model. | |
void | findIntegers (bool startAgain, int type=0) |
Identify integer variables and create corresponding objects. | |
Parameter set/get methods | |
The set methods return true if the parameter was set to the given value, false if the value of the parameter is out of range. The get methods return the value of the parameter. | |
bool | setIntParam (CbcIntParam key, int value) |
Set an integer parameter. | |
bool | setDblParam (CbcDblParam key, double value) |
Set a double parameter. | |
int | getIntParam (CbcIntParam key) const |
Get an integer parameter. | |
double | getDblParam (CbcDblParam key) const |
Get a double parameter. | |
void | setCutoff (double value) |
Set cutoff bound on the objective function. | |
double | getCutoff () const |
Get the cutoff bound on the objective function - always as minimize. | |
bool | setMaximumNodes (int value) |
Set the maximum node limit . | |
int | getMaximumNodes () const |
Get the maximum node limit . | |
bool | setMaximumSolutions (int value) |
Set the maximum number of solutions desired. | |
int | getMaximumSolutions () const |
Get the maximum number of solutions desired. | |
bool | setPrintingMode (int value) |
Set the printing mode. | |
int | getPrintingMode () const |
Get the printing mode. | |
bool | setMaximumSeconds (double value) |
Set the maximum number of seconds desired. | |
double | getMaximumSeconds () const |
Get the maximum number of seconds desired. | |
double | getCurrentSeconds () const |
Current time since start of branchAndbound. | |
bool | maximumSecondsReached () const |
Return true if maximum time reached. | |
bool | setIntegerTolerance (double value) |
Set the integrality tolerance . | |
double | getIntegerTolerance () const |
Get the integrality tolerance . | |
bool | setInfeasibilityWeight (double value) |
Set the weight per integer infeasibility . | |
double | getInfeasibilityWeight () const |
Get the weight per integer infeasibility . | |
bool | setAllowableGap (double value) |
Set the allowable gap between the best known solution and the best possible solution. | |
double | getAllowableGap () const |
Get the allowable gap between the best known solution and the best possible solution. | |
bool | setAllowableFractionGap (double value) |
Set the fraction allowable gap between the best known solution and the best possible solution. | |
double | getAllowableFractionGap () const |
Get the fraction allowable gap between the best known solution and the best possible solution. | |
bool | setAllowablePercentageGap (double value) |
Set the percentage allowable gap between the best known solution and the best possible solution. | |
double | getAllowablePercentageGap () const |
Get the percentage allowable gap between the best known solution and the best possible solution. | |
bool | setHeuristicGap (double value) |
Set the heuristic gap between the best known solution and the best possible solution. | |
double | getHeuristicGap () const |
Get the heuristic gap between the best known solution and the best possible solution. | |
bool | setHeuristicFractionGap (double value) |
Set the fraction heuristic gap between the best known solution and the best possible solution. | |
double | getHeuristicFractionGap () const |
Get the fraction heuristic gap between the best known solution and the best possible solution. | |
bool | setCutoffIncrement (double value) |
Set the CbcModel::CbcCutoffIncrement desired. | |
double | getCutoffIncrement () const |
Get the CbcModel::CbcCutoffIncrement desired. | |
void | setHotstartSolution (const double *solution, const int *priorities=NULL) |
Pass in target solution and optional priorities. | |
void | setMinimumDrop (double value) |
Set the minimum drop to continue cuts. | |
double | getMinimumDrop () const |
Get the minimum drop to continue cuts. | |
void | setMaximumCutPassesAtRoot (int value) |
Set the maximum number of cut passes at root node (default 20) Minimum drop can also be used for fine tuning. | |
int | getMaximumCutPassesAtRoot () const |
Get the maximum number of cut passes at root node. | |
void | setMaximumCutPasses (int value) |
Set the maximum number of cut passes at other nodes (default 10) Minimum drop can also be used for fine tuning. | |
int | getMaximumCutPasses () const |
Get the maximum number of cut passes at other nodes (default 10) | |
int | getCurrentPassNumber () const |
Get current cut pass number in this round of cuts. | |
void | setNumberStrong (int number) |
Set the maximum number of candidates to be evaluated for strong branching. | |
int | numberStrong () const |
Get the maximum number of candidates to be evaluated for strong branching. | |
void | setPreferredWay (int value) |
Set global preferred way to branch. | |
int | getPreferredWay () const |
Get the preferred way to branch (default 0) | |
int | whenCuts () const |
Get at which depths to do cuts. | |
void | setWhenCuts (int value) |
Set at which depths to do cuts. | |
bool | doCutsNow (int allowForTopOfTree) const |
Return true if we want to do cuts If allowForTopOfTree zero then just does on multiples of depth if 1 then allows for doing at top of tree if 2 then says if cuts allowed anywhere apart from root. | |
void | setNumberBeforeTrust (int number) |
Set the number of branches before pseudo costs believed in dynamic strong branching. | |
int | numberBeforeTrust () const |
get the number of branches before pseudo costs believed in dynamic strong branching. | |
void | setNumberPenalties (int number) |
Set the number of variables for which to compute penalties in dynamic strong branching. | |
int | numberPenalties () const |
get the number of variables for which to compute penalties in dynamic strong branching. | |
void | setNumberAnalyzeIterations (int number) |
Number of analyze iterations to do. | |
int | numberAnalyzeIterations () const |
double | penaltyScaleFactor () const |
Get scale factor to make penalties match strong. | |
void | setPenaltyScaleFactor (double value) |
Set scale factor to make penalties match strong. | |
void | setProblemType (int number) |
Problem type as set by user or found by analysis. | |
int | problemType () const |
int | currentDepth () const |
Current depth. | |
void | setHowOftenGlobalScan (int number) |
Set how often to scan global cuts. | |
int | howOftenGlobalScan () const |
Get how often to scan global cuts. | |
int * | originalColumns () const |
Original columns as created by integerPresolve or preprocessing. | |
void | setOriginalColumns (const int *originalColumns) |
Set original columns as created by preprocessing. | |
void | setPrintFrequency (int number) |
Set the print frequency. | |
int | printFrequency () const |
Get the print frequency. | |
Methods returning info on how the solution process terminated | |
bool | isAbandoned () const |
Are there a numerical difficulties? | |
bool | isProvenOptimal () const |
Is optimality proven? | |
bool | isProvenInfeasible () const |
Is infeasiblity proven (or none better than cutoff)? | |
bool | isContinuousUnbounded () const |
Was continuous solution unbounded. | |
bool | isProvenDualInfeasible () const |
Was continuous solution unbounded. | |
bool | isNodeLimitReached () const |
Node limit reached? | |
bool | isSecondsLimitReached () const |
Time limit reached? | |
bool | isSolutionLimitReached () const |
Solution limit reached? | |
int | getIterationCount () const |
Get how many iterations it took to solve the problem. | |
void | incrementIterationCount (int value) |
Increment how many iterations it took to solve the problem. | |
int | getNodeCount () const |
Get how many Nodes it took to solve the problem. | |
void | incrementNodeCount (int value) |
Increment how many nodes it took to solve the problem. | |
int | status () const |
Final status of problem Some of these can be found out by is...... | |
void | setProblemStatus (int value) |
int | secondaryStatus () const |
Secondary status of problem. | |
void | setSecondaryStatus (int value) |
bool | isInitialSolveAbandoned () const |
Are there numerical difficulties (for initialSolve) ? | |
bool | isInitialSolveProvenOptimal () const |
Is optimality proven (for initialSolve) ? | |
bool | isInitialSolveProvenPrimalInfeasible () const |
Is primal infeasiblity proven (for initialSolve) ? | |
bool | isInitialSolveProvenDualInfeasible () const |
Is dual infeasiblity proven (for initialSolve) ? | |
Problem information methods | |
These methods call the solver's query routines to return information about the problem referred to by the current object. Querying a problem that has no data associated with it result in zeros for the number of rows and columns, and NULL pointers from the methods that return vectors. Const pointers returned from any data-query method are valid as long as the data is unchanged and the solver is not called. | |
int | numberRowsAtContinuous () const |
Number of rows in continuous (root) problem. | |
int | getNumCols () const |
Get number of columns. | |
int | getNumRows () const |
Get number of rows. | |
CoinBigIndex | getNumElements () const |
Get number of nonzero elements. | |
int | numberIntegers () const |
Number of integers in problem. | |
const int * | integerVariable () const |
char | integerType (int i) const |
Whether or not integer. | |
const char * | integerType () const |
Whether or not integer. | |
const double * | getColLower () const |
Get pointer to array[getNumCols()] of column lower bounds. | |
const double * | getColUpper () const |
Get pointer to array[getNumCols()] of column upper bounds. | |
const char * | getRowSense () const |
Get pointer to array[getNumRows()] of row constraint senses. | |
const double * | getRightHandSide () const |
Get pointer to array[getNumRows()] of rows right-hand sides. | |
const double * | getRowRange () const |
Get pointer to array[getNumRows()] of row ranges. | |
const double * | getRowLower () const |
Get pointer to array[getNumRows()] of row lower bounds. | |
const double * | getRowUpper () const |
Get pointer to array[getNumRows()] of row upper bounds. | |
const double * | getObjCoefficients () const |
Get pointer to array[getNumCols()] of objective function coefficients. | |
double | getObjSense () const |
Get objective function sense (1 for min (default), -1 for max) | |
bool | isContinuous (int colIndex) const |
Return true if variable is continuous. | |
bool | isBinary (int colIndex) const |
Return true if variable is binary. | |
bool | isInteger (int colIndex) const |
Return true if column is integer. | |
bool | isIntegerNonBinary (int colIndex) const |
Return true if variable is general integer. | |
bool | isFreeBinary (int colIndex) const |
Return true if variable is binary and not fixed at either bound. | |
const CoinPackedMatrix * | getMatrixByRow () const |
Get pointer to row-wise copy of matrix. | |
const CoinPackedMatrix * | getMatrixByCol () const |
Get pointer to column-wise copy of matrix. | |
double | getInfinity () const |
Get solver's value for infinity. | |
const double * | getCbcColLower () const |
Get pointer to array[getNumCols()] (for speed) of column lower bounds. | |
const double * | getCbcColUpper () const |
Get pointer to array[getNumCols()] (for speed) of column upper bounds. | |
const double * | getCbcRowLower () const |
Get pointer to array[getNumRows()] (for speed) of row lower bounds. | |
const double * | getCbcRowUpper () const |
Get pointer to array[getNumRows()] (for speed) of row upper bounds. | |
const double * | getCbcColSolution () const |
Get pointer to array[getNumCols()] (for speed) of primal solution vector. | |
const double * | getCbcRowPrice () const |
Get pointer to array[getNumRows()] (for speed) of dual prices. | |
const double * | getCbcReducedCost () const |
Get a pointer to array[getNumCols()] (for speed) of reduced costs. | |
const double * | getCbcRowActivity () const |
Get pointer to array[getNumRows()] (for speed) of row activity levels. | |
Methods related to querying the solution | |
double * | continuousSolution () const |
Holds solution at continuous (after cuts if branchAndBound called) | |
int * | usedInSolution () const |
Array marked whenever a solution is found if non-zero. | |
void | incrementUsed (const double *solution) |
Increases usedInSolution for nonzeros. | |
void | setBestSolution (CBC_Message how, double &objectiveValue, const double *solution, int fixVariables=0) |
Record a new incumbent solution and update objectiveValue. | |
void | setBestObjectiveValue (double objectiveValue) |
Just update objectiveValue. | |
CbcEventHandler::CbcAction | dealWithEventHandler (CbcEventHandler::CbcEvent event, double objValue, const double *solution) |
Deals with event handler and solution. | |
double | checkSolution (double cutoff, double *solution, int fixVariables, double originalObjValue) |
Call this to really test if a valid solution can be feasible Solution is number columns in size. | |
bool | feasibleSolution (int &numberIntegerInfeasibilities, int &numberObjectInfeasibilities) const |
Test the current solution for feasiblility. | |
double * | currentSolution () const |
Solution to the most recent lp relaxation. | |
const double * | testSolution () const |
For testing infeasibilities - will point to currentSolution_ or solver-->getColSolution() | |
void | setTestSolution (const double *solution) |
void | reserveCurrentSolution (const double *solution=NULL) |
Make sure region there and optionally copy solution. | |
const double * | getColSolution () const |
Get pointer to array[getNumCols()] of primal solution vector. | |
const double * | getRowPrice () const |
Get pointer to array[getNumRows()] of dual prices. | |
const double * | getReducedCost () const |
Get a pointer to array[getNumCols()] of reduced costs. | |
const double * | getRowActivity () const |
Get pointer to array[getNumRows()] of row activity levels. | |
double | getCurrentObjValue () const |
Get current objective function value. | |
double | getCurrentMinimizationObjValue () const |
Get current minimization objective function value. | |
double | getMinimizationObjValue () const |
Get best objective function value as minimization. | |
void | setMinimizationObjValue (double value) |
Set best objective function value as minimization. | |
double | getObjValue () const |
Get best objective function value. | |
double | getBestPossibleObjValue () const |
Get best possible objective function value. | |
void | setObjValue (double value) |
Set best objective function value. | |
double | getSolverObjValue () const |
Get solver objective function value (as minimization) | |
double * | bestSolution () const |
The best solution to the integer programming problem. | |
void | setBestSolution (const double *solution, int numberColumns, double objectiveValue, bool check=false) |
User callable setBestSolution. | |
int | getSolutionCount () const |
Get number of solutions. | |
void | setSolutionCount (int value) |
Set number of solutions (so heuristics will be different) | |
int | numberSavedSolutions () const |
Number of saved solutions (including best) | |
int | maximumSavedSolutions () const |
Maximum number of extra saved solutions. | |
void | setMaximumSavedSolutions (int value) |
Set maximum number of extra saved solutions. | |
const double * | savedSolution (int which) const |
Return a saved solution (0==best) - NULL if off end. | |
double | savedSolutionObjective (int which) const |
Return a saved solution objective (0==best) - COIN_DBL_MAX if off end. | |
int | phase () const |
Current phase (so heuristics etc etc can find out). | |
int | getNumberHeuristicSolutions () const |
Get number of heuristic solutions. | |
void | setNumberHeuristicSolutions (int value) |
Set number of heuristic solutions. | |
void | setObjSense (double s) |
Set objective function sense (1 for min (default), -1 for max,) | |
double | getContinuousObjective () const |
Value of objective at continuous. | |
void | setContinuousObjective (double value) |
int | getContinuousInfeasibilities () const |
Number of infeasibilities at continuous. | |
void | setContinuousInfeasibilities (int value) |
double | rootObjectiveAfterCuts () const |
Value of objective after root node cuts added. | |
double | sumChangeObjective () const |
Sum of Changes to objective by first solve. | |
int | numberGlobalViolations () const |
Number of times global cuts violated. | |
void | clearNumberGlobalViolations () |
bool | resolveAfterTakeOffCuts () const |
Whether to force a resolve after takeOffCuts. | |
void | setResolveAfterTakeOffCuts (bool yesNo) |
int | maximumRows () const |
Maximum number of rows. | |
CoinWarmStartBasis & | workingBasis () |
Work basis for temporary use. | |
int | getStopNumberIterations () const |
Get number of "iterations" to stop after. | |
void | setStopNumberIterations (int value) |
Set number of "iterations" to stop after. | |
Node selection | |
CbcCompareBase * | nodeComparison () const |
void | setNodeComparison (CbcCompareBase *compare) |
void | setNodeComparison (CbcCompareBase &compare) |
Problem feasibility checking | |
CbcFeasibilityBase * | problemFeasibility () const |
void | setProblemFeasibility (CbcFeasibilityBase *feasibility) |
void | setProblemFeasibility (CbcFeasibilityBase &feasibility) |
Tree methods and subtree methods | |
CbcTree * | tree () const |
Tree method e.g. heap (which may be overridden by inheritance) | |
void | passInTreeHandler (CbcTree &tree) |
For modifying tree handling (original is cloned) | |
void | passInSubTreeModel (CbcModel &model) |
For passing in an CbcModel to do a sub Tree (with derived tree handlers). | |
CbcModel * | subTreeModel (OsiSolverInterface *solver=NULL) const |
For retrieving a copy of subtree model with given OsiSolver. | |
int | numberStoppedSubTrees () const |
Returns number of times any subtree stopped on nodes, time etc. | |
void | incrementSubTreeStopped () |
Says a sub tree was stopped. | |
int | typePresolve () const |
Whether to automatically do presolve before branch and bound (subTrees). | |
void | setTypePresolve (int value) |
Branching Decisions | |
See the CbcBranchDecision class for additional information. | |
CbcBranchDecision * | branchingMethod () const |
Get the current branching decision method. | |
void | setBranchingMethod (CbcBranchDecision *method) |
Set the branching decision method. | |
void | setBranchingMethod (CbcBranchDecision &method) |
Set the branching method. | |
CbcCutModifier * | cutModifier () const |
Get the current cut modifier method. | |
void | setCutModifier (CbcCutModifier *modifier) |
Set the cut modifier method. | |
void | setCutModifier (CbcCutModifier &modifier) |
Set the cut modifier method. | |
Row (constraint) and Column (variable) cut generation | |
int | stateOfSearch () const |
State of search 0 - no solution 1 - only heuristic solutions 2 - branched to a solution 3 - no solution but many nodes. | |
void | setStateOfSearch (int state) |
int | searchStrategy () const |
Strategy worked out - mainly at root node for use by CbcNode. | |
void | setSearchStrategy (int value) |
Set strategy worked out - mainly at root node for use by CbcNode. | |
int | numberCutGenerators () const |
Get the number of cut generators. | |
CbcCutGenerator ** | cutGenerators () const |
Get the list of cut generators. | |
CbcCutGenerator * | cutGenerator (int i) const |
Get the specified cut generator. | |
CbcCutGenerator * | virginCutGenerator (int i) const |
Get the specified cut generator before any changes. | |
void | 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) |
Add one generator - up to user to delete generators. | |
Strategy and sub models | |
See the CbcStrategy class for additional information. | |
CbcStrategy * | strategy () const |
Get the current strategy. | |
void | setStrategy (CbcStrategy &strategy) |
Set the strategy. Clones. | |
void | setStrategy (CbcStrategy *strategy) |
Set the strategy. assigns. | |
CbcModel * | parentModel () const |
Get the current parent model. | |
void | setParentModel (CbcModel &parentModel) |
Set the parent model. | |
Heuristics and priorities | |
void | addHeuristic (CbcHeuristic *generator, const char *name=NULL, int before=-1) |
Add one heuristic - up to user to delete. | |
CbcHeuristic * | heuristic (int i) const |
Get the specified heuristic. | |
int | numberHeuristics () const |
Get the number of heuristics. | |
CbcHeuristic * | lastHeuristic () const |
Pointer to heuristic solver which found last solution (or NULL) | |
void | setLastHeuristic (CbcHeuristic *last) |
set last heuristic which found a solution | |
void | passInPriorities (const int *priorities, bool ifNotSimpleIntegers) |
Pass in branching priorities. | |
int | priority (int sequence) const |
Returns priority level for an object (or 1000 if no priorities exist) | |
void | passInEventHandler (const CbcEventHandler *eventHandler) |
Set an event handler. | |
CbcEventHandler * | getEventHandler () const |
Retrieve a pointer to the event handler. | |
Setting/Accessing application data | |
void | setApplicationData (void *appData) |
Set application data. | |
void * | getApplicationData () const |
Get application data. | |
void | passInSolverCharacteristics (OsiBabSolver *solverCharacteristics) |
For advanced applications you may wish to modify the behavior of Cbc e.g. | |
const OsiBabSolver * | solverCharacteristics () const |
Get solver characteristics. | |
Message handling etc | |
void | passInMessageHandler (CoinMessageHandler *handler) |
Pass in Message handler (not deleted at end) | |
void | newLanguage (CoinMessages::Language language) |
Set language. | |
void | setLanguage (CoinMessages::Language language) |
CoinMessageHandler * | messageHandler () const |
Return handler. | |
CoinMessages & | messages () |
Return messages. | |
CoinMessages * | messagesPointer () |
Return pointer to messages. | |
void | setLogLevel (int value) |
Set log level. | |
int | logLevel () const |
Get log level. | |
void | setDefaultHandler (bool yesNo) |
Set flag to say if handler_ is the default handler. | |
Specialized | |
void | setSpecialOptions (int value) |
Set special options 0 bit (1) - check if cuts valid (if on debugger list) 1 bit (2) - use current basis to check integer solution (rather than all slack) 2 bit (4) - don't check integer solution (by solving LP) 3 bit (8) - fast analyze 4 bit (16) - non-linear model - so no well defined CoinPackedMatrix 5 bit (32) - keep names 6 bit (64) - try for dominated columns 7 bit (128) - SOS type 1 but all declared integer 8 bit (256) - Set to say solution just found, unset by doing cuts 9 bit (512) - Try reduced model after 100 nodes 10 bit (1024) - Switch on some heuristics even if seems unlikely 11 bit (2048) - Mark as in small branch and bound 12 bit (4096) - Funny cuts so do slow way (in some places) 13 bit (8192) - Funny cuts so do slow way (in other places) 14 bit (16384) - Use Cplex! for fathoming 15 bit (32768) - Try reduced model after 0 nodes 16 bit (65536) - Original model had integer bounds 17 bit (131072) - Perturbation switched off. | |
int | specialOptions () const |
Get special options. | |
bool | normalSolver () const |
Says if normal solver i.e. has well defined CoinPackedMatrix. | |
void | setMoreSpecialOptions (int value) |
Set more special options at present bottom 6 bits used for shadow price mode 1024 for experimental hotstart 2048,4096 breaking out of cuts 8192 slowly increase minimum drop 16384 gomory 32768 more heuristics in sub trees 65536 no cuts in preprocessing 131072 Time limits elapsed. | |
int | moreSpecialOptions () const |
Get more special options. | |
void | setUseElapsedTime (bool yesNo) |
Set time method. | |
bool | useElapsedTime () const |
Get time method. | |
void | goToDantzig (int numberNodes, ClpDualRowPivot *&savePivotMethod) |
Go to dantzig pivot selection if easy problem (clp only) | |
bool | ownObjects () const |
Now we may not own objects - just point to solver's objects. | |
void | checkModel () |
Check original model before it gets messed up. | |
Constructors and destructors etc | |
CbcModel () | |
Default Constructor. | |
CbcModel (const OsiSolverInterface &) | |
Constructor from solver. | |
void | assignSolver (OsiSolverInterface *&solver, bool deleteSolver=true) |
Assign a solver to the model (model assumes ownership) | |
void | setModelOwnsSolver (bool ourSolver) |
Set ownership of solver. | |
bool | modelOwnsSolver () |
Get ownership of solver. | |
CbcModel (const CbcModel &rhs, bool cloneHandler=false) | |
Copy constructor . | |
CbcModel & | operator= (const CbcModel &rhs) |
Assignment operator. | |
~CbcModel () | |
Destructor. | |
OsiSolverInterface * | solver () const |
Returns solver - has current state. | |
OsiSolverInterface * | swapSolver (OsiSolverInterface *solver) |
Returns current solver - sets new one. | |
OsiSolverInterface * | continuousSolver () const |
Returns solver with continuous state. | |
void | createContinuousSolver () |
Create solver with continuous state. | |
void | clearContinuousSolver () |
Clear solver with continuous state. | |
OsiSolverInterface * | referenceSolver () const |
A copy of the solver, taken at constructor or by saveReferenceSolver. | |
void | saveReferenceSolver () |
Save a copy of the current solver so can be reset to. | |
void | resetToReferenceSolver () |
Uses a copy of reference solver to be current solver. | |
void | gutsOfDestructor () |
Clears out as much as possible (except solver) | |
void | gutsOfDestructor2 () |
Clears out enough to reset CbcModel as if no branch and bound done. | |
void | resetModel () |
Clears out enough to reset CbcModel cutoff etc. | |
void | gutsOfCopy (const CbcModel &rhs, int mode=0) |
Most of copy constructor mode - 0 copy but don't delete before 1 copy and delete before 2 copy and delete before (but use virgin generators) | |
void | moveInfo (const CbcModel &rhs) |
Move status, nodes etc etc across. | |
CbcThread * | masterThread () const |
To do with threads. | |
CbcNodeInfo ** | walkback () const |
Get pointer to walkback. | |
int | getNumberThreads () const |
Get number of threads. | |
void | setNumberThreads (int value) |
Set number of threads. | |
int | getThreadMode () const |
Get thread mode. | |
void | setThreadMode (int value) |
Set thread mode always use numberThreads for branching 1 set then deterministic 2 set then use numberThreads for root cuts 4 set then use numberThreads in root mini branch and bound 8 set and numberThreads - do heuristics numberThreads at a time 8 set and numberThreads==0 do all heuristics at once default is 0. | |
int | parallelMode () const |
Return. | |
bool | isLocked () const |
From here to end of section - code in CbcThread.cpp until class changed Returns true if locked. | |
void | lockThread () |
void | unlockThread () |
void | setInfoInChild (int type, CbcThread *info) |
Set information in a child. | |
void | moveToModel (CbcModel *baseModel, int mode) |
Move/copy information from one model to another. | |
int | splitModel (int numberModels, CbcModel **model, int numberNodes) |
Split up nodes. | |
void | startSplitModel (int numberIterations) |
Start threads. | |
void | mergeModels (int numberModel, CbcModel **model, int numberNodes) |
Merge models. | |
int | getNodeCount2 () const |
semi-private i.e. users should not use | |
void | setPointers (const OsiSolverInterface *solver) |
Set pointers for speed. | |
int | reducedCostFix () |
Perform reduced cost fixing. | |
void | synchronizeHandlers (int makeDefault) |
Makes all handlers same. | |
void | saveExtraSolution (const double *solution, double objectiveValue) |
Save a solution to saved list. | |
void | saveBestSolution (const double *solution, double objectiveValue) |
Save a solution to best and move current to saved. | |
void | deleteSolutions () |
Delete best and saved solutions. | |
int | resolve (OsiSolverInterface *solver) |
Encapsulates solver resolve. | |
int | chooseBranch (CbcNode *&newNode, int numberPassesLeft, CbcNode *oldNode, OsiCuts &cuts, bool &resolved, CoinWarmStartBasis *lastws, const double *lowerBefore, const double *upperBefore, OsiSolverBranch *&branches) |
Encapsulates choosing a variable - anyAction -2, infeasible (-1 round again), 0 done. | |
int | chooseBranch (CbcNode *newNode, int numberPassesLeft, bool &resolved) |
CoinWarmStartBasis * | getEmptyBasis (int ns=0, int na=0) const |
Return an empty basis object of the specified size. | |
int | takeOffCuts (OsiCuts &cuts, bool allowResolve, OsiCuts *saveCuts, int numberNewCuts=0, const OsiRowCut **newCuts=NULL) |
Remove inactive cuts from the model. | |
int | addCuts (CbcNode *node, CoinWarmStartBasis *&lastws, bool canFix) |
Determine and install the active cuts that need to be added for the current subproblem. | |
bool | addCuts1 (CbcNode *node, CoinWarmStartBasis *&lastws) |
Traverse the tree from node to root and prep the model. | |
void | previousBounds (CbcNode *node, CbcNodeInfo *where, int iColumn, double &lower, double &upper, int force) |
Returns bounds just before where - initially original bounds. | |
void | setObjectiveValue (CbcNode *thisNode, const CbcNode *parentNode) const |
Set objective value in a node. | |
void | convertToDynamic () |
If numberBeforeTrust >0 then we are going to use CbcBranchDynamic. | |
void | synchronizeNumberBeforeTrust (int type=0) |
Set numberBeforeTrust in all objects. | |
void | zapIntegerInformation (bool leaveObjects=true) |
Zap integer information in problem (may leave object info) | |
int | cliquePseudoCosts (int doStatistics) |
Use cliques for pseudocost information - return nonzero if infeasible. | |
void | pseudoShadow (int type) |
Fill in useful estimates. | |
void | fillPseudoCosts (double *downCosts, double *upCosts, int *priority=NULL, int *numberDown=NULL, int *numberUp=NULL, int *numberDownInfeasible=NULL, int *numberUpInfeasible=NULL) const |
Return pseudo costs If not all integers or not pseudo costs - returns all zero Length of arrays are numberIntegers() and entries correspond to integerVariable()[i] User must allocate arrays before call. | |
void | doHeuristicsAtRoot (int deleteHeuristicsAfterwards=0) |
Do heuristics at root. | |
void | adjustHeuristics () |
Adjust heuristics based on model. | |
const double * | hotstartSolution () const |
Get the hotstart solution. | |
const int * | hotstartPriorities () const |
Get the hotstart priorities. | |
CbcCountRowCut ** | addedCuts () const |
Return the list of cuts initially collected for this subproblem. | |
int | currentNumberCuts () const |
Number of entries in the list returned by addedCuts() | |
OsiCuts * | globalCuts () |
Global cuts. | |
void | setNextRowCut (const OsiRowCut &cut) |
Copy and set a pointer to a row cut which will be added instead of normal branching. | |
CbcNode * | currentNode () const |
Get a pointer to current node (be careful) | |
CglTreeProbingInfo * | probingInfo () const |
Get a pointer to probing info. | |
CoinThreadRandom * | randomNumberGenerator () |
Thread specific random number generator. | |
void | setNumberStrongIterations (int number) |
Set the number of iterations done in strong branching. | |
int | numberStrongIterations () const |
Get the number of iterations done in strong branching. | |
int | maximumNumberIterations () const |
Get maximum number of iterations (designed to be used in heuristics) | |
void | setMaximumNumberIterations (int value) |
Set maximum number of iterations (designed to be used in heuristics) | |
void | setFastNodeDepth (int value) |
Set depth for fast nodes. | |
int | fastNodeDepth () const |
Get depth for fast nodes. | |
int | continuousPriority () const |
Get anything with priority >= this can be treated as continuous. | |
void | setContinuousPriority (int value) |
Set anything with priority >= this can be treated as continuous. | |
void | incrementExtra (int nodes, int iterations) |
int | numberExtraIterations () const |
Number of extra iterations. | |
void | incrementStrongInfo (int numberTimes, int numberIterations, int numberFixed, bool ifInfeasible) |
Increment strong info. | |
const int * | strongInfo () const |
Return strong info. | |
int * | mutableStrongInfo () |
Return mutable strong info. | |
CglStored * | storedRowCuts () const |
Get stored row cuts for donor/recipient CbcModel. | |
void | setStoredRowCuts (CglStored *cuts) |
Set stored row cuts for donor/recipient CbcModel. | |
bool | allDynamic () const |
Says whether all dynamic integers. | |
void | generateCpp (FILE *fp, int options) |
Create C++ lines to get to current state. | |
OsiBranchingInformation | usefulInformation () const |
Generate an OsiBranchingInformation object. | |
void | setBestSolutionBasis (const CoinWarmStartBasis &bestSolutionBasis) |
Warm start object produced by heuristic or strong branching. | |
void | redoWalkBack () |
Redo walkback arrays. | |
Solve methods | |
void | initialSolve () |
Solve the initial LP relaxation. | |
void | branchAndBound (int doStatistics=0) |
Invoke the branch & cut algorithm. | |
void | addUpdateInformation (const CbcObjectUpdateData &data) |
Adds an update information object. | |
int | doOneNode (CbcModel *baseModel, CbcNode *&node, CbcNode *&newNode) |
Do one node - broken out for clarity? also for parallel (when baseModel!=this) Returns 1 if solution found node NULL on return if no branches left newNode NULL if no new node created. | |
int | resolve (CbcNodeInfo *parent, int whereFrom, double *saveSolution=NULL, double *saveLower=NULL, double *saveUpper=NULL) |
Reoptimise an LP relaxation. | |
void | makeGlobalCuts (int numberRows, const int *which) |
Make given rows (L or G) into global cuts and remove from lp. | |
void | makeGlobalCut (const OsiRowCut *cut) |
Make given cut into a global cut. | |
void | makeGlobalCut (const OsiRowCut &cut) |
Make given cut into a global cut. | |
void | makeGlobalCut (const OsiColCut *cut) |
Make given column cut into a global cut. | |
void | makeGlobalCut (const OsiColCut &cut) |
Make given column cut into a global cut. |
Simple Branch and bound class.
The initialSolve() method solves the initial LP relaxation of the MIP problem. The branchAndBound() method can then be called to finish using a branch and cut algorithm.
Subproblems (aka nodes) requiring additional evaluation are stored using the CbcNode and CbcNodeInfo objects. Ancestry linkage is maintained in the CbcNodeInfo object. Evaluation of a subproblem within branchAndBound() proceeds as follows:
Note that there is never a node representing the active subproblem; the model and solver represent the active subproblem.
For a typical subproblem, the sequence of events is as follows:
See CbcCountRowCut for details of the bookkeeping associated with cut management.
Definition at line 99 of file CbcModel.hpp.
Definition at line 103 of file CbcModel.hpp.
Definition at line 129 of file CbcModel.hpp.
CbcModel::CbcModel | ( | ) |
Default Constructor.
CbcModel::CbcModel | ( | const OsiSolverInterface & | ) |
Constructor from solver.
CbcModel::CbcModel | ( | const CbcModel & | rhs, |
bool | cloneHandler = false |
||
) |
Copy constructor .
If cloneHandler is true then message handler is cloned
CbcModel::~CbcModel | ( | ) |
Destructor.
void CbcModel::initialSolve | ( | ) |
Solve the initial LP relaxation.
Invoke the solver's initialSolve() method.
void CbcModel::branchAndBound | ( | int | doStatistics = 0 | ) |
Invoke the branch & cut algorithm.
The method assumes that initialSolve() has been called to solve the LP relaxation. It processes the root node, then proceeds to explore the branch & cut search tree. The search ends when the tree is exhausted or one of several execution limits is reached. If doStatistics is 1 summary statistics are printed if 2 then also the path to best solution (if found by branching) if 3 then also one line per node
void CbcModel::addUpdateInformation | ( | const CbcObjectUpdateData & | data | ) |
Adds an update information object.
Do one node - broken out for clarity? also for parallel (when baseModel!=this) Returns 1 if solution found node NULL on return if no branches left newNode NULL if no new node created.
int CbcModel::resolve | ( | CbcNodeInfo * | parent, |
int | whereFrom, | ||
double * | saveSolution = NULL , |
||
double * | saveLower = NULL , |
||
double * | saveUpper = NULL |
||
) |
Reoptimise an LP relaxation.
Invoke the solver's resolve() method. whereFrom - 0 - initial continuous 1 - resolve on branch (before new cuts) 2 - after new cuts 3 - obsolete code or something modified problem in unexpected way 10 - after strong branching has fixed variables at root 11 - after strong branching has fixed variables in tree
returns 1 feasible, 0 infeasible, -1 feasible but skip cuts
void CbcModel::makeGlobalCuts | ( | int | numberRows, |
const int * | which | ||
) |
Make given rows (L or G) into global cuts and remove from lp.
void CbcModel::makeGlobalCut | ( | const OsiRowCut * | cut | ) |
Make given cut into a global cut.
void CbcModel::makeGlobalCut | ( | const OsiRowCut & | cut | ) |
Make given cut into a global cut.
void CbcModel::makeGlobalCut | ( | const OsiColCut * | cut | ) |
Make given column cut into a global cut.
void CbcModel::makeGlobalCut | ( | const OsiColCut & | cut | ) |
Make given column cut into a global cut.
CbcModel* CbcModel::findCliques | ( | bool | makeEquality, |
int | atLeastThisMany, | ||
int | lessThanThis, | ||
int | defaultValue = 1000 |
||
) |
Identify cliques and construct corresponding objects.
Find cliques with size in the range [atLeastThisMany
, lessThanThis
] and construct corresponding CbcClique objects. If makeEquality
is true then a new model may be returned if modifications had to be made, otherwise this
is returned. If the problem is infeasible #numberObjects_ is set to -1. A client must use deleteObjects() before a second call to findCliques(). If priorities exist, clique priority is set to the default.
CbcModel* CbcModel::integerPresolve | ( | bool | weak = false | ) |
Do integer presolve, creating a new (presolved) model.
Returns the new model, or NULL if feasibility is lost. If weak is true then just does a normal presolve
bool CbcModel::integerPresolveThisModel | ( | OsiSolverInterface * | originalSolver, |
bool | weak = false |
||
) |
Do integer presolve, modifying the current model.
Returns true if the model remains feasible after presolve.
void CbcModel::originalModel | ( | CbcModel * | presolvedModel, |
bool | weak | ||
) |
Put back information into the original model after integer presolve.
bool CbcModel::tightenVubs | ( | int | type, |
bool | allowMultipleBinary = false , |
||
double | useCutoff = 1.0e50 |
||
) |
For variables involved in VUB constraints, see if we can tighten bounds by solving lp's.
Returns false if feasibility is lost. If CglProbing is available, it will be tried as well to see if it can tighten bounds. This routine is just a front end for tightenVubs(int,const int*,double).
If type = -1
all variables are processed (could be very slow). If type = 0
only variables involved in VUBs are processed. If type = n > 0
, only the n most expensive VUB variables are processed, where it is assumed that x is at its maximum so delta would have to go to 1 (if x not at bound).
If allowMultipleBinary
is true, then a VUB constraint is a row with one continuous variable and any number of binary variables.
If useCutoff < 1.0e30
, the original objective is installed as a constraint with useCutoff
as a bound.
bool CbcModel::tightenVubs | ( | int | numberVubs, |
const int * | which, | ||
double | useCutoff = 1.0e50 |
||
) |
For variables involved in VUB constraints, see if we can tighten bounds by solving lp's.
This version is just handed a list of variables to be processed.
void CbcModel::analyzeObjective | ( | ) |
Analyze problem to find a minimum change in the objective function.
void CbcModel::AddIntegers | ( | ) |
Add additional integers.
void CbcModel::saveModel | ( | OsiSolverInterface * | saveSolver, |
double * | checkCutoffForRestart, | ||
bool * | feasible | ||
) |
Save copy of the model.
int CbcModel::numberObjects | ( | ) | const [inline] |
Get the number of objects.
Definition at line 451 of file CbcModel.hpp.
void CbcModel::setNumberObjects | ( | int | number | ) | [inline] |
Set the number of objects.
Definition at line 455 of file CbcModel.hpp.
OsiObject** CbcModel::objects | ( | ) | const [inline] |
Get the array of objects.
Definition at line 460 of file CbcModel.hpp.
const OsiObject* CbcModel::object | ( | int | which | ) | const [inline] |
Get the specified object.
Definition at line 465 of file CbcModel.hpp.
OsiObject* CbcModel::modifiableObject | ( | int | which | ) | const [inline] |
Get the specified object.
Definition at line 469 of file CbcModel.hpp.
void CbcModel::setOptionalInteger | ( | int | index | ) |
void CbcModel::deleteObjects | ( | bool | findIntegers = true | ) |
Delete all object information (and just back to integers if true)
void CbcModel::addObjects | ( | int | numberObjects, |
OsiObject ** | objects | ||
) |
Add in object information.
Objects are cloned; the owner can delete the originals.
void CbcModel::addObjects | ( | int | numberObjects, |
CbcObject ** | objects | ||
) |
Add in object information.
Objects are cloned; the owner can delete the originals.
void CbcModel::synchronizeModel | ( | ) |
Ensure attached objects point to this model.
void CbcModel::findIntegers | ( | bool | startAgain, |
int | type = 0 |
||
) |
Identify integer variables and create corresponding objects.
Record integer variables and create an CbcSimpleInteger object for each one. If startAgain
is true, a new scan is forced, overwriting any existing integer variable information. If type > 0 then 1==PseudoCost, 2 new ones low priority
bool CbcModel::setIntParam | ( | CbcIntParam | key, |
int | value | ||
) | [inline] |
Set an integer parameter.
Definition at line 518 of file CbcModel.hpp.
bool CbcModel::setDblParam | ( | CbcDblParam | key, |
double | value | ||
) | [inline] |
Set a double parameter.
Definition at line 523 of file CbcModel.hpp.
int CbcModel::getIntParam | ( | CbcIntParam | key | ) | const [inline] |
Get an integer parameter.
Definition at line 528 of file CbcModel.hpp.
double CbcModel::getDblParam | ( | CbcDblParam | key | ) | const [inline] |
Get a double parameter.
Definition at line 532 of file CbcModel.hpp.
void CbcModel::setCutoff | ( | double | value | ) |
Set cutoff bound on the objective function.
When using strict comparison, the bound is adjusted by a tolerance to avoid accidentally cutting off the optimal solution.
double CbcModel::getCutoff | ( | ) | const [inline] |
Get the cutoff bound on the objective function - always as minimize.
Definition at line 543 of file CbcModel.hpp.
bool CbcModel::setMaximumNodes | ( | int | value | ) | [inline] |
Set the maximum node limit .
Definition at line 550 of file CbcModel.hpp.
int CbcModel::getMaximumNodes | ( | ) | const [inline] |
Get the maximum node limit .
Definition at line 555 of file CbcModel.hpp.
bool CbcModel::setMaximumSolutions | ( | int | value | ) | [inline] |
Set the maximum number of solutions desired.
Definition at line 563 of file CbcModel.hpp.
int CbcModel::getMaximumSolutions | ( | ) | const [inline] |
Get the maximum number of solutions desired.
Definition at line 570 of file CbcModel.hpp.
bool CbcModel::setPrintingMode | ( | int | value | ) | [inline] |
Set the printing mode.
Definition at line 574 of file CbcModel.hpp.
int CbcModel::getPrintingMode | ( | ) | const [inline] |
Get the printing mode.
Definition at line 579 of file CbcModel.hpp.
bool CbcModel::setMaximumSeconds | ( | double | value | ) | [inline] |
Set the maximum number of seconds desired.
Definition at line 587 of file CbcModel.hpp.
double CbcModel::getMaximumSeconds | ( | ) | const [inline] |
Get the maximum number of seconds desired.
Definition at line 594 of file CbcModel.hpp.
double CbcModel::getCurrentSeconds | ( | ) | const |
Current time since start of branchAndbound.
bool CbcModel::maximumSecondsReached | ( | ) | const |
Return true if maximum time reached.
bool CbcModel::setIntegerTolerance | ( | double | value | ) | [inline] |
Set the integrality tolerance .
Definition at line 606 of file CbcModel.hpp.
double CbcModel::getIntegerTolerance | ( | ) | const [inline] |
Get the integrality tolerance .
Definition at line 612 of file CbcModel.hpp.
bool CbcModel::setInfeasibilityWeight | ( | double | value | ) | [inline] |
Set the weight per integer infeasibility .
Definition at line 620 of file CbcModel.hpp.
double CbcModel::getInfeasibilityWeight | ( | ) | const [inline] |
Get the weight per integer infeasibility .
Definition at line 627 of file CbcModel.hpp.
bool CbcModel::setAllowableGap | ( | double | value | ) | [inline] |
Set the allowable gap between the best known solution and the best possible solution.
Definition at line 634 of file CbcModel.hpp.
double CbcModel::getAllowableGap | ( | ) | const [inline] |
Get the allowable gap between the best known solution and the best possible solution.
Definition at line 640 of file CbcModel.hpp.
bool CbcModel::setAllowableFractionGap | ( | double | value | ) | [inline] |
Set the fraction allowable gap between the best known solution and the best possible solution.
Definition at line 647 of file CbcModel.hpp.
double CbcModel::getAllowableFractionGap | ( | ) | const [inline] |
Get the fraction allowable gap between the best known solution and the best possible solution.
Definition at line 653 of file CbcModel.hpp.
bool CbcModel::setAllowablePercentageGap | ( | double | value | ) | [inline] |
Set the percentage allowable gap between the best known solution and the best possible solution.
Definition at line 659 of file CbcModel.hpp.
double CbcModel::getAllowablePercentageGap | ( | ) | const [inline] |
Get the percentage allowable gap between the best known solution and the best possible solution.
Definition at line 665 of file CbcModel.hpp.
bool CbcModel::setHeuristicGap | ( | double | value | ) | [inline] |
Set the heuristic gap between the best known solution and the best possible solution.
Definition at line 671 of file CbcModel.hpp.
double CbcModel::getHeuristicGap | ( | ) | const [inline] |
Get the heuristic gap between the best known solution and the best possible solution.
Definition at line 677 of file CbcModel.hpp.
bool CbcModel::setHeuristicFractionGap | ( | double | value | ) | [inline] |
Set the fraction heuristic gap between the best known solution and the best possible solution.
Definition at line 684 of file CbcModel.hpp.
double CbcModel::getHeuristicFractionGap | ( | ) | const [inline] |
Get the fraction heuristic gap between the best known solution and the best possible solution.
Definition at line 690 of file CbcModel.hpp.
bool CbcModel::setCutoffIncrement | ( | double | value | ) | [inline] |
Set the CbcModel::CbcCutoffIncrement desired.
Definition at line 697 of file CbcModel.hpp.
double CbcModel::getCutoffIncrement | ( | ) | const [inline] |
Get the CbcModel::CbcCutoffIncrement desired.
Definition at line 704 of file CbcModel.hpp.
void CbcModel::setHotstartSolution | ( | const double * | solution, |
const int * | priorities = NULL |
||
) |
Pass in target solution and optional priorities.
If priorities then >0 means only branch if incorrect while <0 means branch even if correct. +1 or -1 are highest priority
void CbcModel::setMinimumDrop | ( | double | value | ) | [inline] |
Set the minimum drop to continue cuts.
Definition at line 715 of file CbcModel.hpp.
double CbcModel::getMinimumDrop | ( | ) | const [inline] |
Get the minimum drop to continue cuts.
Definition at line 719 of file CbcModel.hpp.
void CbcModel::setMaximumCutPassesAtRoot | ( | int | value | ) | [inline] |
Set the maximum number of cut passes at root node (default 20) Minimum drop can also be used for fine tuning.
Definition at line 725 of file CbcModel.hpp.
int CbcModel::getMaximumCutPassesAtRoot | ( | ) | const [inline] |
Get the maximum number of cut passes at root node.
Definition at line 729 of file CbcModel.hpp.
void CbcModel::setMaximumCutPasses | ( | int | value | ) | [inline] |
Set the maximum number of cut passes at other nodes (default 10) Minimum drop can also be used for fine tuning.
Definition at line 735 of file CbcModel.hpp.
int CbcModel::getMaximumCutPasses | ( | ) | const [inline] |
Get the maximum number of cut passes at other nodes (default 10)
Definition at line 739 of file CbcModel.hpp.
int CbcModel::getCurrentPassNumber | ( | ) | const [inline] |
Get current cut pass number in this round of cuts.
(1 is first pass)
Definition at line 744 of file CbcModel.hpp.
void CbcModel::setNumberStrong | ( | int | number | ) |
Set the maximum number of candidates to be evaluated for strong branching.
A value of 0 disables strong branching.
int CbcModel::numberStrong | ( | ) | const [inline] |
Get the maximum number of candidates to be evaluated for strong branching.
Definition at line 757 of file CbcModel.hpp.
void CbcModel::setPreferredWay | ( | int | value | ) | [inline] |
Set global preferred way to branch.
-1 down, +1 up, 0 no preference
Definition at line 762 of file CbcModel.hpp.
int CbcModel::getPreferredWay | ( | ) | const [inline] |
Get the preferred way to branch (default 0)
Definition at line 766 of file CbcModel.hpp.
int CbcModel::whenCuts | ( | ) | const [inline] |
Get at which depths to do cuts.
Definition at line 770 of file CbcModel.hpp.
void CbcModel::setWhenCuts | ( | int | value | ) | [inline] |
Set at which depths to do cuts.
Definition at line 774 of file CbcModel.hpp.
bool CbcModel::doCutsNow | ( | int | allowForTopOfTree | ) | const |
Return true if we want to do cuts If allowForTopOfTree zero then just does on multiples of depth if 1 then allows for doing at top of tree if 2 then says if cuts allowed anywhere apart from root.
void CbcModel::setNumberBeforeTrust | ( | int | number | ) |
Set the number of branches before pseudo costs believed in dynamic strong branching.
A value of 0 disables dynamic strong branching.
int CbcModel::numberBeforeTrust | ( | ) | const [inline] |
get the number of branches before pseudo costs believed in dynamic strong branching.
Definition at line 792 of file CbcModel.hpp.
void CbcModel::setNumberPenalties | ( | int | number | ) |
Set the number of variables for which to compute penalties in dynamic strong branching.
A value of 0 disables penalties.
int CbcModel::numberPenalties | ( | ) | const [inline] |
get the number of variables for which to compute penalties in dynamic strong branching.
Definition at line 803 of file CbcModel.hpp.
void CbcModel::setNumberAnalyzeIterations | ( | int | number | ) | [inline] |
Number of analyze iterations to do.
Definition at line 807 of file CbcModel.hpp.
int CbcModel::numberAnalyzeIterations | ( | ) | const [inline] |
Definition at line 810 of file CbcModel.hpp.
double CbcModel::penaltyScaleFactor | ( | ) | const [inline] |
Get scale factor to make penalties match strong.
Should/will be computed
Definition at line 815 of file CbcModel.hpp.
void CbcModel::setPenaltyScaleFactor | ( | double | value | ) |
Set scale factor to make penalties match strong.
Should/will be computed
void CbcModel::setProblemType | ( | int | number | ) | [inline] |
Problem type as set by user or found by analysis.
This will be extended 0 - not known 1 - Set partitioning <= 2 - Set partitioning == 3 - Set covering 4 - all +- 1 or all +1 and odd
Definition at line 828 of file CbcModel.hpp.
int CbcModel::problemType | ( | ) | const [inline] |
Definition at line 831 of file CbcModel.hpp.
int CbcModel::currentDepth | ( | ) | const [inline] |
Current depth.
Definition at line 835 of file CbcModel.hpp.
void CbcModel::setHowOftenGlobalScan | ( | int | number | ) |
Set how often to scan global cuts.
int CbcModel::howOftenGlobalScan | ( | ) | const [inline] |
Get how often to scan global cuts.
Definition at line 842 of file CbcModel.hpp.
int* CbcModel::originalColumns | ( | ) | const [inline] |
Original columns as created by integerPresolve or preprocessing.
Definition at line 846 of file CbcModel.hpp.
void CbcModel::setOriginalColumns | ( | const int * | originalColumns | ) |
Set original columns as created by preprocessing.
void CbcModel::setPrintFrequency | ( | int | number | ) | [inline] |
Set the print frequency.
Controls the number of nodes evaluated between status prints. If number <=0
the print frequency is set to 100 nodes for large problems, 1000 for small problems. Print frequency has very slight overhead if small.
Definition at line 859 of file CbcModel.hpp.
int CbcModel::printFrequency | ( | ) | const [inline] |
Get the print frequency.
Definition at line 863 of file CbcModel.hpp.
bool CbcModel::isAbandoned | ( | ) | const |
Are there a numerical difficulties?
bool CbcModel::isProvenOptimal | ( | ) | const |
Is optimality proven?
bool CbcModel::isProvenInfeasible | ( | ) | const |
Is infeasiblity proven (or none better than cutoff)?
bool CbcModel::isContinuousUnbounded | ( | ) | const |
Was continuous solution unbounded.
bool CbcModel::isProvenDualInfeasible | ( | ) | const |
Was continuous solution unbounded.
bool CbcModel::isNodeLimitReached | ( | ) | const |
Node limit reached?
bool CbcModel::isSecondsLimitReached | ( | ) | const |
Time limit reached?
bool CbcModel::isSolutionLimitReached | ( | ) | const |
Solution limit reached?
int CbcModel::getIterationCount | ( | ) | const [inline] |
Get how many iterations it took to solve the problem.
Definition at line 888 of file CbcModel.hpp.
void CbcModel::incrementIterationCount | ( | int | value | ) | [inline] |
Increment how many iterations it took to solve the problem.
Definition at line 892 of file CbcModel.hpp.
int CbcModel::getNodeCount | ( | ) | const [inline] |
Get how many Nodes it took to solve the problem.
Definition at line 896 of file CbcModel.hpp.
void CbcModel::incrementNodeCount | ( | int | value | ) | [inline] |
Increment how many nodes it took to solve the problem.
Definition at line 900 of file CbcModel.hpp.
int CbcModel::status | ( | ) | const [inline] |
Final status of problem Some of these can be found out by is......
functions -1 before branchAndBound 0 finished - check isProvenOptimal or isProvenInfeasible to see if solution found (or check value of best solution) 1 stopped - on maxnodes, maxsols, maxtime 2 difficulties so run was abandoned (5 event user programmed event occurred)
Definition at line 912 of file CbcModel.hpp.
void CbcModel::setProblemStatus | ( | int | value | ) | [inline] |
Definition at line 915 of file CbcModel.hpp.
int CbcModel::secondaryStatus | ( | ) | const [inline] |
Secondary status of problem.
-1 unset (status_ will also be -1) 0 search completed with solution 1 linear relaxation not feasible (or worse than cutoff) 2 stopped on gap 3 stopped on nodes 4 stopped on time 5 stopped on user event 6 stopped on solutions 7 linear relaxation unbounded
Definition at line 929 of file CbcModel.hpp.
void CbcModel::setSecondaryStatus | ( | int | value | ) | [inline] |
Definition at line 932 of file CbcModel.hpp.
bool CbcModel::isInitialSolveAbandoned | ( | ) | const |
Are there numerical difficulties (for initialSolve) ?
bool CbcModel::isInitialSolveProvenOptimal | ( | ) | const |
Is optimality proven (for initialSolve) ?
bool CbcModel::isInitialSolveProvenPrimalInfeasible | ( | ) | const |
Is primal infeasiblity proven (for initialSolve) ?
bool CbcModel::isInitialSolveProvenDualInfeasible | ( | ) | const |
Is dual infeasiblity proven (for initialSolve) ?
int CbcModel::numberRowsAtContinuous | ( | ) | const [inline] |
Number of rows in continuous (root) problem.
Definition at line 960 of file CbcModel.hpp.
int CbcModel::getNumCols | ( | ) | const [inline] |
Get number of columns.
Definition at line 965 of file CbcModel.hpp.
int CbcModel::getNumRows | ( | ) | const [inline] |
Get number of rows.
Definition at line 970 of file CbcModel.hpp.
CoinBigIndex CbcModel::getNumElements | ( | ) | const [inline] |
Get number of nonzero elements.
Definition at line 975 of file CbcModel.hpp.
int CbcModel::numberIntegers | ( | ) | const [inline] |
Number of integers in problem.
Definition at line 980 of file CbcModel.hpp.
const int* CbcModel::integerVariable | ( | ) | const [inline] |
Definition at line 984 of file CbcModel.hpp.
char CbcModel::integerType | ( | int | i | ) | const [inline] |
Whether or not integer.
Definition at line 988 of file CbcModel.hpp.
const char* CbcModel::integerType | ( | ) | const [inline] |
Whether or not integer.
Definition at line 994 of file CbcModel.hpp.
const double* CbcModel::getColLower | ( | ) | const [inline] |
Get pointer to array[getNumCols()] of column lower bounds.
Definition at line 999 of file CbcModel.hpp.
const double* CbcModel::getColUpper | ( | ) | const [inline] |
Get pointer to array[getNumCols()] of column upper bounds.
Definition at line 1004 of file CbcModel.hpp.
const char* CbcModel::getRowSense | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of row constraint senses.
Definition at line 1017 of file CbcModel.hpp.
const double* CbcModel::getRightHandSide | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of rows right-hand sides.
Definition at line 1029 of file CbcModel.hpp.
const double* CbcModel::getRowRange | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of row ranges.
Definition at line 1041 of file CbcModel.hpp.
const double* CbcModel::getRowLower | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of row lower bounds.
Definition at line 1046 of file CbcModel.hpp.
const double* CbcModel::getRowUpper | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of row upper bounds.
Definition at line 1051 of file CbcModel.hpp.
const double* CbcModel::getObjCoefficients | ( | ) | const [inline] |
Get pointer to array[getNumCols()] of objective function coefficients.
Definition at line 1056 of file CbcModel.hpp.
double CbcModel::getObjSense | ( | ) | const [inline] |
Get objective function sense (1 for min (default), -1 for max)
Definition at line 1061 of file CbcModel.hpp.
bool CbcModel::isContinuous | ( | int | colIndex | ) | const [inline] |
Return true if variable is continuous.
Definition at line 1067 of file CbcModel.hpp.
bool CbcModel::isBinary | ( | int | colIndex | ) | const [inline] |
Return true if variable is binary.
Definition at line 1072 of file CbcModel.hpp.
bool CbcModel::isInteger | ( | int | colIndex | ) | const [inline] |
Return true if column is integer.
Note: This function returns true if the the column is binary or a general integer.
Definition at line 1080 of file CbcModel.hpp.
bool CbcModel::isIntegerNonBinary | ( | int | colIndex | ) | const [inline] |
Return true if variable is general integer.
Definition at line 1085 of file CbcModel.hpp.
bool CbcModel::isFreeBinary | ( | int | colIndex | ) | const [inline] |
Return true if variable is binary and not fixed at either bound.
Definition at line 1090 of file CbcModel.hpp.
const CoinPackedMatrix* CbcModel::getMatrixByRow | ( | ) | const [inline] |
Get pointer to row-wise copy of matrix.
Definition at line 1095 of file CbcModel.hpp.
const CoinPackedMatrix* CbcModel::getMatrixByCol | ( | ) | const [inline] |
Get pointer to column-wise copy of matrix.
Definition at line 1100 of file CbcModel.hpp.
double CbcModel::getInfinity | ( | ) | const [inline] |
Get solver's value for infinity.
Definition at line 1105 of file CbcModel.hpp.
const double* CbcModel::getCbcColLower | ( | ) | const [inline] |
Get pointer to array[getNumCols()] (for speed) of column lower bounds.
Definition at line 1109 of file CbcModel.hpp.
const double* CbcModel::getCbcColUpper | ( | ) | const [inline] |
Get pointer to array[getNumCols()] (for speed) of column upper bounds.
Definition at line 1113 of file CbcModel.hpp.
const double* CbcModel::getCbcRowLower | ( | ) | const [inline] |
Get pointer to array[getNumRows()] (for speed) of row lower bounds.
Definition at line 1117 of file CbcModel.hpp.
const double* CbcModel::getCbcRowUpper | ( | ) | const [inline] |
Get pointer to array[getNumRows()] (for speed) of row upper bounds.
Definition at line 1121 of file CbcModel.hpp.
const double* CbcModel::getCbcColSolution | ( | ) | const [inline] |
Get pointer to array[getNumCols()] (for speed) of primal solution vector.
Definition at line 1125 of file CbcModel.hpp.
const double* CbcModel::getCbcRowPrice | ( | ) | const [inline] |
Get pointer to array[getNumRows()] (for speed) of dual prices.
Definition at line 1129 of file CbcModel.hpp.
const double* CbcModel::getCbcReducedCost | ( | ) | const [inline] |
Get a pointer to array[getNumCols()] (for speed) of reduced costs.
Definition at line 1133 of file CbcModel.hpp.
const double* CbcModel::getCbcRowActivity | ( | ) | const [inline] |
Get pointer to array[getNumRows()] (for speed) of row activity levels.
Definition at line 1137 of file CbcModel.hpp.
double* CbcModel::continuousSolution | ( | ) | const [inline] |
Holds solution at continuous (after cuts if branchAndBound called)
Definition at line 1146 of file CbcModel.hpp.
int* CbcModel::usedInSolution | ( | ) | const [inline] |
Array marked whenever a solution is found if non-zero.
Code marks if heuristic returns better so heuristic need only mark if it wants to on solutions which are worse than current
Definition at line 1153 of file CbcModel.hpp.
void CbcModel::incrementUsed | ( | const double * | solution | ) |
Increases usedInSolution for nonzeros.
void CbcModel::setBestSolution | ( | CBC_Message | how, |
double & | objectiveValue, | ||
const double * | solution, | ||
int | fixVariables = 0 |
||
) |
Record a new incumbent solution and update objectiveValue.
void CbcModel::setBestObjectiveValue | ( | double | objectiveValue | ) |
Just update objectiveValue.
CbcEventHandler::CbcAction CbcModel::dealWithEventHandler | ( | CbcEventHandler::CbcEvent | event, |
double | objValue, | ||
const double * | solution | ||
) |
Deals with event handler and solution.
double CbcModel::checkSolution | ( | double | cutoff, |
double * | solution, | ||
int | fixVariables, | ||
double | originalObjValue | ||
) |
Call this to really test if a valid solution can be feasible Solution is number columns in size.
If fixVariables true then bounds of continuous solver updated. Returns objective value (worse than cutoff if not feasible) Previously computed objective value is now passed in (in case user does not do solve)
bool CbcModel::feasibleSolution | ( | int & | numberIntegerInfeasibilities, |
int & | numberObjectInfeasibilities | ||
) | const |
Test the current solution for feasiblility.
Scan all objects for indications of infeasibility. This is broken down into simple integer infeasibility (numberIntegerInfeasibilities
) and all other reports of infeasibility (numberObjectInfeasibilities
).
double* CbcModel::currentSolution | ( | ) | const [inline] |
Solution to the most recent lp relaxation.
The solver's solution to the most recent lp relaxation.
Definition at line 1191 of file CbcModel.hpp.
const double* CbcModel::testSolution | ( | ) | const [inline] |
For testing infeasibilities - will point to currentSolution_ or solver-->getColSolution()
Definition at line 1197 of file CbcModel.hpp.
void CbcModel::setTestSolution | ( | const double * | solution | ) | [inline] |
Definition at line 1200 of file CbcModel.hpp.
void CbcModel::reserveCurrentSolution | ( | const double * | solution = NULL | ) |
Make sure region there and optionally copy solution.
const double* CbcModel::getColSolution | ( | ) | const [inline] |
Get pointer to array[getNumCols()] of primal solution vector.
Definition at line 1207 of file CbcModel.hpp.
const double* CbcModel::getRowPrice | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of dual prices.
Definition at line 1212 of file CbcModel.hpp.
const double* CbcModel::getReducedCost | ( | ) | const [inline] |
Get a pointer to array[getNumCols()] of reduced costs.
Definition at line 1217 of file CbcModel.hpp.
const double* CbcModel::getRowActivity | ( | ) | const [inline] |
Get pointer to array[getNumRows()] of row activity levels.
Definition at line 1222 of file CbcModel.hpp.
double CbcModel::getCurrentObjValue | ( | ) | const [inline] |
Get current objective function value.
Definition at line 1227 of file CbcModel.hpp.
double CbcModel::getCurrentMinimizationObjValue | ( | ) | const [inline] |
Get current minimization objective function value.
Definition at line 1231 of file CbcModel.hpp.
double CbcModel::getMinimizationObjValue | ( | ) | const [inline] |
Get best objective function value as minimization.
Definition at line 1236 of file CbcModel.hpp.
void CbcModel::setMinimizationObjValue | ( | double | value | ) | [inline] |
Set best objective function value as minimization.
Definition at line 1240 of file CbcModel.hpp.
double CbcModel::getObjValue | ( | ) | const [inline] |
Get best objective function value.
Definition at line 1245 of file CbcModel.hpp.
double CbcModel::getBestPossibleObjValue | ( | ) | const |
Get best possible objective function value.
This is better of best possible left on tree and best solution found. If called from within branch and cut may be optimistic.
void CbcModel::setObjValue | ( | double | value | ) | [inline] |
Set best objective function value.
Definition at line 1255 of file CbcModel.hpp.
double CbcModel::getSolverObjValue | ( | ) | const [inline] |
Get solver objective function value (as minimization)
Definition at line 1259 of file CbcModel.hpp.
double* CbcModel::bestSolution | ( | ) | const [inline] |
The best solution to the integer programming problem.
The best solution to the integer programming problem found during the search. If no solution is found, the method returns null.
Definition at line 1269 of file CbcModel.hpp.
void CbcModel::setBestSolution | ( | const double * | solution, |
int | numberColumns, | ||
double | objectiveValue, | ||
bool | check = false |
||
) |
User callable setBestSolution.
If check false does not check valid If true then sees if feasible and warns if objective value worse than given (so just set to COIN_DBL_MAX if you don't care). If check true then does not save solution if not feasible
int CbcModel::getSolutionCount | ( | ) | const [inline] |
Get number of solutions.
Definition at line 1282 of file CbcModel.hpp.
void CbcModel::setSolutionCount | ( | int | value | ) | [inline] |
Set number of solutions (so heuristics will be different)
Definition at line 1287 of file CbcModel.hpp.
int CbcModel::numberSavedSolutions | ( | ) | const |
Number of saved solutions (including best)
int CbcModel::maximumSavedSolutions | ( | ) | const [inline] |
Maximum number of extra saved solutions.
Definition at line 1293 of file CbcModel.hpp.
void CbcModel::setMaximumSavedSolutions | ( | int | value | ) |
Set maximum number of extra saved solutions.
const double* CbcModel::savedSolution | ( | int | which | ) | const |
Return a saved solution (0==best) - NULL if off end.
double CbcModel::savedSolutionObjective | ( | int | which | ) | const |
Return a saved solution objective (0==best) - COIN_DBL_MAX if off end.
int CbcModel::phase | ( | ) | const [inline] |
Current phase (so heuristics etc etc can find out).
0 - initial solve 1 - solve with cuts at root 2 - solve with cuts 3 - other e.g. strong branching 4 - trying to validate a solution 5 - at end of search
Definition at line 1311 of file CbcModel.hpp.
int CbcModel::getNumberHeuristicSolutions | ( | ) | const [inline] |
Get number of heuristic solutions.
Definition at line 1316 of file CbcModel.hpp.
void CbcModel::setNumberHeuristicSolutions | ( | int | value | ) | [inline] |
Set number of heuristic solutions.
Definition at line 1320 of file CbcModel.hpp.
void CbcModel::setObjSense | ( | double | s | ) | [inline] |
Set objective function sense (1 for min (default), -1 for max,)
Definition at line 1325 of file CbcModel.hpp.
double CbcModel::getContinuousObjective | ( | ) | const [inline] |
Value of objective at continuous.
Definition at line 1331 of file CbcModel.hpp.
void CbcModel::setContinuousObjective | ( | double | value | ) | [inline] |
Definition at line 1334 of file CbcModel.hpp.
int CbcModel::getContinuousInfeasibilities | ( | ) | const [inline] |
Number of infeasibilities at continuous.
Definition at line 1338 of file CbcModel.hpp.
void CbcModel::setContinuousInfeasibilities | ( | int | value | ) | [inline] |
Definition at line 1341 of file CbcModel.hpp.
double CbcModel::rootObjectiveAfterCuts | ( | ) | const [inline] |
Value of objective after root node cuts added.
Definition at line 1345 of file CbcModel.hpp.
double CbcModel::sumChangeObjective | ( | ) | const [inline] |
Sum of Changes to objective by first solve.
Definition at line 1349 of file CbcModel.hpp.
int CbcModel::numberGlobalViolations | ( | ) | const [inline] |
Number of times global cuts violated.
When global cut pool then this should be kept for each cut and type of cut
Definition at line 1354 of file CbcModel.hpp.
void CbcModel::clearNumberGlobalViolations | ( | ) | [inline] |
Definition at line 1357 of file CbcModel.hpp.
bool CbcModel::resolveAfterTakeOffCuts | ( | ) | const [inline] |
Whether to force a resolve after takeOffCuts.
Definition at line 1361 of file CbcModel.hpp.
void CbcModel::setResolveAfterTakeOffCuts | ( | bool | yesNo | ) | [inline] |
Definition at line 1364 of file CbcModel.hpp.
int CbcModel::maximumRows | ( | ) | const [inline] |
Maximum number of rows.
Definition at line 1368 of file CbcModel.hpp.
CoinWarmStartBasis& CbcModel::workingBasis | ( | ) | [inline] |
Work basis for temporary use.
Definition at line 1372 of file CbcModel.hpp.
int CbcModel::getStopNumberIterations | ( | ) | const [inline] |
Get number of "iterations" to stop after.
Definition at line 1376 of file CbcModel.hpp.
void CbcModel::setStopNumberIterations | ( | int | value | ) | [inline] |
Set number of "iterations" to stop after.
Definition at line 1380 of file CbcModel.hpp.
CbcCompareBase* CbcModel::nodeComparison | ( | ) | const [inline] |
Definition at line 1388 of file CbcModel.hpp.
void CbcModel::setNodeComparison | ( | CbcCompareBase * | compare | ) |
void CbcModel::setNodeComparison | ( | CbcCompareBase & | compare | ) |
CbcFeasibilityBase* CbcModel::problemFeasibility | ( | ) | const [inline] |
Definition at line 1398 of file CbcModel.hpp.
void CbcModel::setProblemFeasibility | ( | CbcFeasibilityBase * | feasibility | ) |
void CbcModel::setProblemFeasibility | ( | CbcFeasibilityBase & | feasibility | ) |
CbcTree* CbcModel::tree | ( | ) | const [inline] |
Tree method e.g. heap (which may be overridden by inheritance)
Definition at line 1408 of file CbcModel.hpp.
void CbcModel::passInTreeHandler | ( | CbcTree & | tree | ) |
For modifying tree handling (original is cloned)
void CbcModel::passInSubTreeModel | ( | CbcModel & | model | ) |
For passing in an CbcModel to do a sub Tree (with derived tree handlers).
Passed in model must exist for duration of branch and bound
CbcModel* CbcModel::subTreeModel | ( | OsiSolverInterface * | solver = NULL | ) | const |
For retrieving a copy of subtree model with given OsiSolver.
If no subtree model will use self (up to user to reset cutoff etc). If solver NULL uses current
int CbcModel::numberStoppedSubTrees | ( | ) | const [inline] |
Returns number of times any subtree stopped on nodes, time etc.
Definition at line 1423 of file CbcModel.hpp.
void CbcModel::incrementSubTreeStopped | ( | ) | [inline] |
Says a sub tree was stopped.
Definition at line 1427 of file CbcModel.hpp.
int CbcModel::typePresolve | ( | ) | const [inline] |
Whether to automatically do presolve before branch and bound (subTrees).
0 - no 1 - ordinary presolve 2 - integer presolve (dodgy)
Definition at line 1435 of file CbcModel.hpp.
void CbcModel::setTypePresolve | ( | int | value | ) | [inline] |
Definition at line 1438 of file CbcModel.hpp.
CbcBranchDecision* CbcModel::branchingMethod | ( | ) | const [inline] |
Get the current branching decision method.
Definition at line 1451 of file CbcModel.hpp.
void CbcModel::setBranchingMethod | ( | CbcBranchDecision * | method | ) | [inline] |
Set the branching decision method.
Definition at line 1455 of file CbcModel.hpp.
void CbcModel::setBranchingMethod | ( | CbcBranchDecision & | method | ) | [inline] |
Set the branching method.
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
Definition at line 1463 of file CbcModel.hpp.
CbcCutModifier* CbcModel::cutModifier | ( | ) | const [inline] |
Get the current cut modifier method.
Definition at line 1468 of file CbcModel.hpp.
void CbcModel::setCutModifier | ( | CbcCutModifier * | modifier | ) |
Set the cut modifier method.
void CbcModel::setCutModifier | ( | CbcCutModifier & | modifier | ) |
Set the cut modifier method.
This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.
int CbcModel::stateOfSearch | ( | ) | const [inline] |
State of search 0 - no solution 1 - only heuristic solutions 2 - branched to a solution 3 - no solution but many nodes.
Definition at line 1489 of file CbcModel.hpp.
void CbcModel::setStateOfSearch | ( | int | state | ) | [inline] |
Definition at line 1492 of file CbcModel.hpp.
int CbcModel::searchStrategy | ( | ) | const [inline] |
Strategy worked out - mainly at root node for use by CbcNode.
Definition at line 1496 of file CbcModel.hpp.
void CbcModel::setSearchStrategy | ( | int | value | ) | [inline] |
Set strategy worked out - mainly at root node for use by CbcNode.
Definition at line 1500 of file CbcModel.hpp.
int CbcModel::numberCutGenerators | ( | ) | const [inline] |
Get the number of cut generators.
Definition at line 1505 of file CbcModel.hpp.
CbcCutGenerator** CbcModel::cutGenerators | ( | ) | const [inline] |
Get the list of cut generators.
Definition at line 1509 of file CbcModel.hpp.
CbcCutGenerator* CbcModel::cutGenerator | ( | int | i | ) | const [inline] |
Get the specified cut generator.
Definition at line 1513 of file CbcModel.hpp.
CbcCutGenerator* CbcModel::virginCutGenerator | ( | int | i | ) | const [inline] |
Get the specified cut generator before any changes.
Definition at line 1517 of file CbcModel.hpp.
void CbcModel::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 |
||
) |
Add one generator - up to user to delete generators.
howoften affects how generator is used. 0 or 1 means always, >1 means every that number of nodes. Negative values have same meaning as positive but they may be switched off (-> -100) by code if not many cuts generated at continuous. -99 is just done at root. Name is just for printout. If depth >0 overrides how often generator is called (if howOften==-1 or >0).
CbcStrategy* CbcModel::strategy | ( | ) | const [inline] |
Get the current strategy.
Definition at line 1541 of file CbcModel.hpp.
void CbcModel::setStrategy | ( | CbcStrategy & | strategy | ) |
Set the strategy. Clones.
void CbcModel::setStrategy | ( | CbcStrategy * | strategy | ) | [inline] |
Set the strategy. assigns.
Definition at line 1547 of file CbcModel.hpp.
CbcModel* CbcModel::parentModel | ( | ) | const [inline] |
Get the current parent model.
Definition at line 1551 of file CbcModel.hpp.
void CbcModel::setParentModel | ( | CbcModel & | parentModel | ) | [inline] |
Set the parent model.
Definition at line 1555 of file CbcModel.hpp.
void CbcModel::addHeuristic | ( | CbcHeuristic * | generator, |
const char * | name = NULL , |
||
int | before = -1 |
||
) |
Add one heuristic - up to user to delete.
The name is just used for print messages.
CbcHeuristic* CbcModel::heuristic | ( | int | i | ) | const [inline] |
Get the specified heuristic.
Definition at line 1570 of file CbcModel.hpp.
int CbcModel::numberHeuristics | ( | ) | const [inline] |
Get the number of heuristics.
Definition at line 1574 of file CbcModel.hpp.
CbcHeuristic* CbcModel::lastHeuristic | ( | ) | const [inline] |
Pointer to heuristic solver which found last solution (or NULL)
Definition at line 1578 of file CbcModel.hpp.
void CbcModel::setLastHeuristic | ( | CbcHeuristic * | last | ) | [inline] |
set last heuristic which found a solution
Definition at line 1582 of file CbcModel.hpp.
void CbcModel::passInPriorities | ( | const int * | priorities, |
bool | ifNotSimpleIntegers | ||
) |
Pass in branching priorities.
If ifClique then priorities are on cliques otherwise priorities are on integer variables. Other type (if exists set to default) 1 is highest priority. (well actually -INT_MAX is but that's ugly) If hotstart > 0 then branches are created to force the variable to the value given by best solution. This enables a sort of hot start. The node choice should be greatest depth and hotstart should normally be switched off after a solution.
If ifNotSimpleIntegers true then appended to normal integers
This is now deprecated except for simple usage. If user creates Cbcobjects then set priority in them
int CbcModel::priority | ( | int | sequence | ) | const [inline] |
Returns priority level for an object (or 1000 if no priorities exist)
Definition at line 1607 of file CbcModel.hpp.
void CbcModel::passInEventHandler | ( | const CbcEventHandler * | eventHandler | ) |
Set an event handler.
A clone of the handler passed as a parameter is stored in CbcModel.
CbcEventHandler* CbcModel::getEventHandler | ( | ) | const [inline] |
Retrieve a pointer to the event handler.
Definition at line 1618 of file CbcModel.hpp.
void CbcModel::setApplicationData | ( | void * | appData | ) |
Set application data.
This is a pointer that the application can store into and retrieve from the solver interface. This field is available for the application to optionally define and use.
void* CbcModel::getApplicationData | ( | ) | const |
Get application data.
void CbcModel::passInSolverCharacteristics | ( | OsiBabSolver * | solverCharacteristics | ) |
For advanced applications you may wish to modify the behavior of Cbc e.g.
if the solver is a NLP solver then you may not have an exact optimum solution at each step. Information could be built into OsiSolverInterface but this is an alternative so that that interface does not have to be changed. If something similar is useful to enough solvers then it could be migrated You can also pass in by using solver->setAuxiliaryInfo. You should do that if solver is odd - if solver is normal simplex then use this. NOTE - characteristics are not cloned
const OsiBabSolver* CbcModel::solverCharacteristics | ( | ) | const [inline] |
Get solver characteristics.
Definition at line 1651 of file CbcModel.hpp.
void CbcModel::passInMessageHandler | ( | CoinMessageHandler * | handler | ) |
Pass in Message handler (not deleted at end)
void CbcModel::newLanguage | ( | CoinMessages::Language | language | ) |
Set language.
void CbcModel::setLanguage | ( | CoinMessages::Language | language | ) | [inline] |
Definition at line 1664 of file CbcModel.hpp.
CoinMessageHandler* CbcModel::messageHandler | ( | ) | const [inline] |
Return handler.
Definition at line 1668 of file CbcModel.hpp.
CoinMessages& CbcModel::messages | ( | ) | [inline] |
Return messages.
Definition at line 1672 of file CbcModel.hpp.
CoinMessages* CbcModel::messagesPointer | ( | ) | [inline] |
Return pointer to messages.
Definition at line 1676 of file CbcModel.hpp.
void CbcModel::setLogLevel | ( | int | value | ) |
Set log level.
int CbcModel::logLevel | ( | ) | const [inline] |
Get log level.
Definition at line 1682 of file CbcModel.hpp.
void CbcModel::setDefaultHandler | ( | bool | yesNo | ) | [inline] |
Set flag to say if handler_ is the default handler.
The default handler is deleted when the model is deleted. Other handlers (supplied by the client) will not be deleted.
Definition at line 1690 of file CbcModel.hpp.
void CbcModel::setSpecialOptions | ( | int | value | ) | [inline] |
Set special options 0 bit (1) - check if cuts valid (if on debugger list) 1 bit (2) - use current basis to check integer solution (rather than all slack) 2 bit (4) - don't check integer solution (by solving LP) 3 bit (8) - fast analyze 4 bit (16) - non-linear model - so no well defined CoinPackedMatrix 5 bit (32) - keep names 6 bit (64) - try for dominated columns 7 bit (128) - SOS type 1 but all declared integer 8 bit (256) - Set to say solution just found, unset by doing cuts 9 bit (512) - Try reduced model after 100 nodes 10 bit (1024) - Switch on some heuristics even if seems unlikely 11 bit (2048) - Mark as in small branch and bound 12 bit (4096) - Funny cuts so do slow way (in some places) 13 bit (8192) - Funny cuts so do slow way (in other places) 14 bit (16384) - Use Cplex! for fathoming 15 bit (32768) - Try reduced model after 0 nodes 16 bit (65536) - Original model had integer bounds 17 bit (131072) - Perturbation switched off.
Definition at line 1719 of file CbcModel.hpp.
int CbcModel::specialOptions | ( | ) | const [inline] |
Get special options.
Definition at line 1723 of file CbcModel.hpp.
bool CbcModel::normalSolver | ( | ) | const [inline] |
Says if normal solver i.e. has well defined CoinPackedMatrix.
Definition at line 1727 of file CbcModel.hpp.
void CbcModel::setMoreSpecialOptions | ( | int | value | ) | [inline] |
Set more special options at present bottom 6 bits used for shadow price mode 1024 for experimental hotstart 2048,4096 breaking out of cuts 8192 slowly increase minimum drop 16384 gomory 32768 more heuristics in sub trees 65536 no cuts in preprocessing 131072 Time limits elapsed.
Definition at line 1740 of file CbcModel.hpp.
int CbcModel::moreSpecialOptions | ( | ) | const [inline] |
Get more special options.
Definition at line 1744 of file CbcModel.hpp.
void CbcModel::setUseElapsedTime | ( | bool | yesNo | ) | [inline] |
Set time method.
Definition at line 1748 of file CbcModel.hpp.
bool CbcModel::useElapsedTime | ( | ) | const [inline] |
Get time method.
Definition at line 1755 of file CbcModel.hpp.
void CbcModel::goToDantzig | ( | int | numberNodes, |
ClpDualRowPivot *& | savePivotMethod | ||
) |
Go to dantzig pivot selection if easy problem (clp only)
bool CbcModel::ownObjects | ( | ) | const [inline] |
Now we may not own objects - just point to solver's objects.
Definition at line 1763 of file CbcModel.hpp.
void CbcModel::checkModel | ( | ) |
Check original model before it gets messed up.
void CbcModel::assignSolver | ( | OsiSolverInterface *& | solver, |
bool | deleteSolver = true |
||
) |
Assign a solver to the model (model assumes ownership)
On return, solver
will be NULL. If deleteSolver then current solver deleted (if model owned)
void CbcModel::setModelOwnsSolver | ( | bool | ourSolver | ) | [inline] |
Set ownership of solver.
A parameter of false tells CbcModel it does not own the solver and should not delete it. Once you claim ownership of the solver, you're responsible for eventually deleting it. Note that CbcModel clones solvers with abandon. Unless you have a deep understanding of the workings of CbcModel, the only time you want to claim ownership is when you're about to delete the CbcModel object but want the solver to continue to exist (as, for example, when branchAndBound has finished and you want to hang on to the answer).
Definition at line 1800 of file CbcModel.hpp.
bool CbcModel::modelOwnsSolver | ( | ) | [inline] |
Get ownership of solver.
A return value of true means that CbcModel owns the solver and will take responsibility for deleting it when that becomes necessary.
Definition at line 1809 of file CbcModel.hpp.
OsiSolverInterface* CbcModel::solver | ( | ) | const [inline] |
Returns solver - has current state.
Definition at line 1825 of file CbcModel.hpp.
OsiSolverInterface* CbcModel::swapSolver | ( | OsiSolverInterface * | solver | ) | [inline] |
Returns current solver - sets new one.
Definition at line 1830 of file CbcModel.hpp.
OsiSolverInterface* CbcModel::continuousSolver | ( | ) | const [inline] |
Returns solver with continuous state.
Definition at line 1837 of file CbcModel.hpp.
void CbcModel::createContinuousSolver | ( | ) | [inline] |
Create solver with continuous state.
Definition at line 1842 of file CbcModel.hpp.
void CbcModel::clearContinuousSolver | ( | ) | [inline] |
Clear solver with continuous state.
Definition at line 1846 of file CbcModel.hpp.
OsiSolverInterface* CbcModel::referenceSolver | ( | ) | const [inline] |
A copy of the solver, taken at constructor or by saveReferenceSolver.
Definition at line 1852 of file CbcModel.hpp.
void CbcModel::saveReferenceSolver | ( | ) |
Save a copy of the current solver so can be reset to.
void CbcModel::resetToReferenceSolver | ( | ) |
Uses a copy of reference solver to be current solver.
Because of possible mismatches all exotic integer information is loat (apart from normal information in OsiSolverInterface) so SOS etc and priorities will have to be redone
void CbcModel::gutsOfDestructor | ( | ) |
Clears out as much as possible (except solver)
void CbcModel::gutsOfDestructor2 | ( | ) |
Clears out enough to reset CbcModel as if no branch and bound done.
void CbcModel::resetModel | ( | ) |
Clears out enough to reset CbcModel cutoff etc.
void CbcModel::gutsOfCopy | ( | const CbcModel & | rhs, |
int | mode = 0 |
||
) |
Most of copy constructor mode - 0 copy but don't delete before 1 copy and delete before 2 copy and delete before (but use virgin generators)
void CbcModel::moveInfo | ( | const CbcModel & | rhs | ) |
Move status, nodes etc etc across.
CbcThread* CbcModel::masterThread | ( | ) | const [inline] |
CbcNodeInfo** CbcModel::walkback | ( | ) | const [inline] |
Get pointer to walkback.
Definition at line 1891 of file CbcModel.hpp.
int CbcModel::getNumberThreads | ( | ) | const [inline] |
Get number of threads.
Definition at line 1895 of file CbcModel.hpp.
void CbcModel::setNumberThreads | ( | int | value | ) | [inline] |
Set number of threads.
Definition at line 1899 of file CbcModel.hpp.
int CbcModel::getThreadMode | ( | ) | const [inline] |
Get thread mode.
Definition at line 1903 of file CbcModel.hpp.
void CbcModel::setThreadMode | ( | int | value | ) | [inline] |
Set thread mode always use numberThreads for branching 1 set then deterministic 2 set then use numberThreads for root cuts 4 set then use numberThreads in root mini branch and bound 8 set and numberThreads - do heuristics numberThreads at a time 8 set and numberThreads==0 do all heuristics at once default is 0.
Definition at line 1915 of file CbcModel.hpp.
int CbcModel::parallelMode | ( | ) | const [inline] |
Return.
-2 if deterministic threaded and main thread -1 if deterministic threaded and serial thread 0 if serial 1 if opportunistic threaded
Definition at line 1924 of file CbcModel.hpp.
bool CbcModel::isLocked | ( | ) | const |
From here to end of section - code in CbcThread.cpp until class changed Returns true if locked.
void CbcModel::lockThread | ( | ) | [inline] |
Definition at line 1952 of file CbcModel.hpp.
void CbcModel::unlockThread | ( | ) | [inline] |
Definition at line 1953 of file CbcModel.hpp.
void CbcModel::setInfoInChild | ( | int | type, |
CbcThread * | info | ||
) |
Set information in a child.
-3 pass pointer to child thread info -2 just stop -1 delete simple child stuff 0 delete opportunistic child stuff 1 delete deterministic child stuff
void CbcModel::moveToModel | ( | CbcModel * | baseModel, |
int | mode | ||
) |
Move/copy information from one model to another.
-1 - initialization 0 - from base model 1 - to base model (and reset) 2 - add in final statistics etc (and reset so can do clean destruction)
int CbcModel::splitModel | ( | int | numberModels, |
CbcModel ** | model, | ||
int | numberNodes | ||
) |
Split up nodes.
void CbcModel::startSplitModel | ( | int | numberIterations | ) |
Start threads.
void CbcModel::mergeModels | ( | int | numberModel, |
CbcModel ** | model, | ||
int | numberNodes | ||
) |
Merge models.
int CbcModel::getNodeCount2 | ( | ) | const [inline] |
semi-private i.e. users should not use
Get how many Nodes it took to solve the problem.
Definition at line 1983 of file CbcModel.hpp.
void CbcModel::setPointers | ( | const OsiSolverInterface * | solver | ) |
Set pointers for speed.
int CbcModel::reducedCostFix | ( | ) |
Perform reduced cost fixing.
Fixes integer variables at their current value based on reduced cost penalties. Returns number fixed
void CbcModel::synchronizeHandlers | ( | int | makeDefault | ) |
Makes all handlers same.
If makeDefault 1 then makes top level default and rest point to that. If 2 then each is copy
void CbcModel::saveExtraSolution | ( | const double * | solution, |
double | objectiveValue | ||
) |
Save a solution to saved list.
void CbcModel::saveBestSolution | ( | const double * | solution, |
double | objectiveValue | ||
) |
Save a solution to best and move current to saved.
void CbcModel::deleteSolutions | ( | ) |
Delete best and saved solutions.
int CbcModel::resolve | ( | OsiSolverInterface * | solver | ) |
Encapsulates solver resolve.
int CbcModel::chooseBranch | ( | CbcNode *& | newNode, |
int | numberPassesLeft, | ||
CbcNode * | oldNode, | ||
OsiCuts & | cuts, | ||
bool & | resolved, | ||
CoinWarmStartBasis * | lastws, | ||
const double * | lowerBefore, | ||
const double * | upperBefore, | ||
OsiSolverBranch *& | branches | ||
) |
Encapsulates choosing a variable - anyAction -2, infeasible (-1 round again), 0 done.
int CbcModel::chooseBranch | ( | CbcNode * | newNode, |
int | numberPassesLeft, | ||
bool & | resolved | ||
) |
CoinWarmStartBasis* CbcModel::getEmptyBasis | ( | int | ns = 0 , |
int | na = 0 |
||
) | const |
Return an empty basis object of the specified size.
A useful utility when constructing a basis for a subproblem from scratch. The object returned will be of the requested capacity and appropriate for the solver attached to the model.
int CbcModel::takeOffCuts | ( | OsiCuts & | cuts, |
bool | allowResolve, | ||
OsiCuts * | saveCuts, | ||
int | numberNewCuts = 0 , |
||
const OsiRowCut ** | newCuts = NULL |
||
) |
Remove inactive cuts from the model.
An OsiSolverInterface is expected to maintain a valid basis, but not a valid solution, when loose cuts are deleted. Restoring a valid solution requires calling the solver to reoptimise. If it's certain the solution will not be required, set allowResolve to false to suppress reoptimisation. If saveCuts then slack cuts will be saved On input current cuts are cuts and newCuts on exit current cuts will be correct. Returns number dropped
int CbcModel::addCuts | ( | CbcNode * | node, |
CoinWarmStartBasis *& | lastws, | ||
bool | canFix | ||
) |
Determine and install the active cuts that need to be added for the current subproblem.
The whole truth is a bit more complicated. The first action is a call to addCuts1(). addCuts() then sorts through the list, installs the tight cuts in the model, and does bookkeeping (adjusts reference counts). The basis returned from addCuts1() is adjusted accordingly.
If it turns out that the node should really be fathomed by bound, addCuts() simply treats all the cuts as loose as it does the bookkeeping.
canFix true if extra information being passed
bool CbcModel::addCuts1 | ( | CbcNode * | node, |
CoinWarmStartBasis *& | lastws | ||
) |
Traverse the tree from node to root and prep the model.
addCuts1() begins the job of prepping the model to match the current subproblem. The model is stripped of all cuts, and the search tree is traversed from node to root to determine the changes required. Appropriate bounds changes are installed, a list of cuts is collected but not installed, and an appropriate basis (minus the cuts, but big enough to accommodate them) is constructed.
Returns true if new problem similar to old
void CbcModel::previousBounds | ( | CbcNode * | node, |
CbcNodeInfo * | where, | ||
int | iColumn, | ||
double & | lower, | ||
double & | upper, | ||
int | force | ||
) |
Returns bounds just before where - initially original bounds.
Also sets downstream nodes (lower if force 1, upper if 2)
Set objective value in a node.
This is separated out so that odd solvers can use. It may look at extra information in solverCharacteriscs_ and will also use bound from parent node
void CbcModel::convertToDynamic | ( | ) |
If numberBeforeTrust >0 then we are going to use CbcBranchDynamic.
Scan and convert CbcSimpleInteger objects
void CbcModel::synchronizeNumberBeforeTrust | ( | int | type = 0 | ) |
Set numberBeforeTrust in all objects.
void CbcModel::zapIntegerInformation | ( | bool | leaveObjects = true | ) |
Zap integer information in problem (may leave object info)
int CbcModel::cliquePseudoCosts | ( | int | doStatistics | ) |
Use cliques for pseudocost information - return nonzero if infeasible.
void CbcModel::pseudoShadow | ( | int | type | ) |
Fill in useful estimates.
void CbcModel::fillPseudoCosts | ( | double * | downCosts, |
double * | upCosts, | ||
int * | priority = NULL , |
||
int * | numberDown = NULL , |
||
int * | numberUp = NULL , |
||
int * | numberDownInfeasible = NULL , |
||
int * | numberUpInfeasible = NULL |
||
) | const |
Return pseudo costs If not all integers or not pseudo costs - returns all zero Length of arrays are numberIntegers() and entries correspond to integerVariable()[i] User must allocate arrays before call.
void CbcModel::doHeuristicsAtRoot | ( | int | deleteHeuristicsAfterwards = 0 | ) |
Do heuristics at root.
0 - don't delete 1 - delete 2 - just delete - don't even use
void CbcModel::adjustHeuristics | ( | ) |
Adjust heuristics based on model.
const double* CbcModel::hotstartSolution | ( | ) | const [inline] |
Get the hotstart solution.
Definition at line 2115 of file CbcModel.hpp.
const int* CbcModel::hotstartPriorities | ( | ) | const [inline] |
Get the hotstart priorities.
Definition at line 2119 of file CbcModel.hpp.
CbcCountRowCut** CbcModel::addedCuts | ( | ) | const [inline] |
Return the list of cuts initially collected for this subproblem.
Definition at line 2124 of file CbcModel.hpp.
int CbcModel::currentNumberCuts | ( | ) | const [inline] |
Number of entries in the list returned by addedCuts()
Definition at line 2128 of file CbcModel.hpp.
OsiCuts* CbcModel::globalCuts | ( | ) | [inline] |
Global cuts.
Definition at line 2132 of file CbcModel.hpp.
void CbcModel::setNextRowCut | ( | const OsiRowCut & | cut | ) |
Copy and set a pointer to a row cut which will be added instead of normal branching.
CbcNode* CbcModel::currentNode | ( | ) | const [inline] |
Get a pointer to current node (be careful)
Definition at line 2138 of file CbcModel.hpp.
CglTreeProbingInfo* CbcModel::probingInfo | ( | ) | const [inline] |
Get a pointer to probing info.
Definition at line 2142 of file CbcModel.hpp.
CoinThreadRandom* CbcModel::randomNumberGenerator | ( | ) | [inline] |
Thread specific random number generator.
Definition at line 2146 of file CbcModel.hpp.
void CbcModel::setNumberStrongIterations | ( | int | number | ) | [inline] |
Set the number of iterations done in strong branching.
Definition at line 2150 of file CbcModel.hpp.
int CbcModel::numberStrongIterations | ( | ) | const [inline] |
Get the number of iterations done in strong branching.
Definition at line 2154 of file CbcModel.hpp.
int CbcModel::maximumNumberIterations | ( | ) | const [inline] |
Get maximum number of iterations (designed to be used in heuristics)
Definition at line 2158 of file CbcModel.hpp.
void CbcModel::setMaximumNumberIterations | ( | int | value | ) | [inline] |
Set maximum number of iterations (designed to be used in heuristics)
Definition at line 2162 of file CbcModel.hpp.
void CbcModel::setFastNodeDepth | ( | int | value | ) | [inline] |
Set depth for fast nodes.
Definition at line 2167 of file CbcModel.hpp.
int CbcModel::fastNodeDepth | ( | ) | const [inline] |
Get depth for fast nodes.
Definition at line 2171 of file CbcModel.hpp.
int CbcModel::continuousPriority | ( | ) | const [inline] |
Get anything with priority >= this can be treated as continuous.
Definition at line 2175 of file CbcModel.hpp.
void CbcModel::setContinuousPriority | ( | int | value | ) | [inline] |
Set anything with priority >= this can be treated as continuous.
Definition at line 2179 of file CbcModel.hpp.
void CbcModel::incrementExtra | ( | int | nodes, |
int | iterations | ||
) | [inline] |
Definition at line 2182 of file CbcModel.hpp.
int CbcModel::numberExtraIterations | ( | ) | const [inline] |
Number of extra iterations.
Definition at line 2188 of file CbcModel.hpp.
void CbcModel::incrementStrongInfo | ( | int | numberTimes, |
int | numberIterations, | ||
int | numberFixed, | ||
bool | ifInfeasible | ||
) |
Increment strong info.
const int* CbcModel::strongInfo | ( | ) | const [inline] |
Return strong info.
Definition at line 2195 of file CbcModel.hpp.
int* CbcModel::mutableStrongInfo | ( | ) | [inline] |
Return mutable strong info.
Definition at line 2200 of file CbcModel.hpp.
CglStored* CbcModel::storedRowCuts | ( | ) | const [inline] |
Get stored row cuts for donor/recipient CbcModel.
Definition at line 2204 of file CbcModel.hpp.
void CbcModel::setStoredRowCuts | ( | CglStored * | cuts | ) | [inline] |
Set stored row cuts for donor/recipient CbcModel.
Definition at line 2208 of file CbcModel.hpp.
bool CbcModel::allDynamic | ( | ) | const [inline] |
Says whether all dynamic integers.
Definition at line 2212 of file CbcModel.hpp.
void CbcModel::generateCpp | ( | FILE * | fp, |
int | options | ||
) |
Create C++ lines to get to current state.
OsiBranchingInformation CbcModel::usefulInformation | ( | ) | const |
Generate an OsiBranchingInformation object.
void CbcModel::setBestSolutionBasis | ( | const CoinWarmStartBasis & | bestSolutionBasis | ) | [inline] |
Warm start object produced by heuristic or strong branching.
If get a valid integer solution outside branch and bound then it can take a reasonable time to solve LP which produces clean solution. If this object has any size then it will be used in solve.
Definition at line 2225 of file CbcModel.hpp.
void CbcModel::redoWalkBack | ( | ) |
Redo walkback arrays.