5 #ifndef OsiSolverInterface_H
6 #define OsiSolverInterface_H
64 const std::string &mpsDir,
65 const std::string &netlibDir);
67 const std::vector< OsiSolverInterface * > &vecSiP,
68 const std::string &mpsDir);
190 #ifdef CBC_NEXT_VERSION
214 int &numberSolves,
int &numberIterations,
215 bool forceBranch =
false);
322 "setHintParam",
"OsiSolverInterface");
360 void *&otherInformation)
const
366 otherInformation = NULL;
605 virtual bool isBinary(
int colIndex)
const;
611 virtual bool isInteger(
int colIndex)
const;
649 virtual const char *
getColType(
bool refresh =
false)
const;
728 virtual std::vector< double * >
getDualRays(
int maxNumRays,
729 bool fullRay =
false)
const = 0;
746 virtual std::vector< double * >
getPrimalRays(
int maxNumRays)
const = 0;
767 virtual void setObjCoeff(
int elementIndex,
double elementValue) = 0;
771 const int *indexLast,
772 const double *coeffList);
795 virtual void setColLower(
int elementIndex,
double elementValue) = 0;
806 virtual void setColUpper(
int elementIndex,
double elementValue) = 0;
819 double lower,
double upper)
832 const int *indexLast,
833 const double *boundList);
837 virtual void setRowLower(
int elementIndex,
double elementValue) = 0;
841 virtual void setRowUpper(
int elementIndex,
double elementValue) = 0;
847 double lower,
double upper)
860 const int *indexLast,
861 const double *boundList);
864 virtual void setRowType(
int index,
char sense,
double rightHandSide,
873 const int *indexLast,
874 const char *senseList,
875 const double *rhsList,
876 const double *rangeList);
898 virtual void setRowPrice(
const double *rowprice) = 0;
923 virtual void setInteger(
const int *indices,
int len);
963 int ndx,
unsigned digits = 7)
const;
967 virtual std::string
getObjName(
unsigned maxLen = static_cast< unsigned >(std::string::npos))
const;
983 unsigned maxLen = static_cast< unsigned >(std::string::npos))
const;
1003 virtual void setRowName(
int ndx, std::string name);
1012 int srcStart,
int len,
int tgtStart);
1028 unsigned maxLen = static_cast< unsigned >(std::string::npos))
const;
1046 virtual void setColName(
int ndx, std::string name);
1055 int srcStart,
int len,
int tgtStart);
1099 const double collb,
const double colub,
1109 const double collb,
const double colub,
1110 const double obj, std::string name);
1113 virtual void addCol(
int numberElements,
1114 const int *rows,
const double *elements,
1115 const double collb,
const double colub,
1123 virtual void addCol(
int numberElements,
1124 const int *rows,
const double *elements,
1125 const double collb,
const double colub,
1126 const double obj, std::string name);
1133 virtual void addCols(
const int numcols,
1135 const double *collb,
const double *colub,
1144 const int *rows,
const double *elements,
1145 const double *collb,
const double *colub,
1161 const double* collb,
const double* colub,
1171 virtual void deleteCols(
const int num,
const int *colIndices) = 0;
1175 const double rowlb,
const double rowub)
1184 const double rowlb,
const double rowub,
1189 const char rowsen,
const double rowrhs,
1190 const double rowrng)
1199 const char rowsen,
const double rowrhs,
1200 const double rowrng, std::string name);
1206 virtual void addRow(
int numberElements,
1207 const int *columns,
const double *element,
1208 const double rowlb,
const double rowub);
1215 virtual void addRows(
const int numrows,
1217 const double *rowlb,
const double *rowub);
1224 virtual void addRows(
const int numrows,
1226 const char *rowsen,
const double *rowrhs,
1227 const double *rowrng);
1235 const int *columns,
const double *element,
1236 const double *rowlb,
const double *rowub);
1254 const double* rowlb,
const double* rowub);
1257 const char* rowsen,
const double* rowrhs,
1258 const double* rowrng);
1266 virtual void deleteRows(
const int num,
const int *rowIndices) = 0;
1326 double effectivenessLb = 0.0);
1364 const double *collb,
const double *colub,
1366 const double *rowlb,
const double *rowub)
1379 double *&collb,
double *&colub,
double *&obj,
1380 double *&rowlb,
double *&rowub)
1400 const double *collb,
const double *colub,
1402 const char *rowsen,
const double *rowrhs,
1403 const double *rowrng)
1416 double *&collb,
double *&colub,
double *&obj,
1417 char *&rowsen,
double *&rowrhs,
1433 virtual void loadProblem(
const int numcols,
const int numrows,
1435 const double *value,
1436 const double *collb,
const double *colub,
1438 const double *rowlb,
const double *rowub)
1453 virtual void loadProblem(
const int numcols,
const int numrows,
1455 const double *value,
1456 const double *collb,
const double *colub,
1458 const char *rowsen,
const double *rowrhs,
1459 const double *rowrng)
1469 bool keepSolution =
false);
1476 virtual int readMps(
const char *filename,
1477 const char *extension =
"mps");
1485 virtual int readMps(
const char *filename,
const char *extension,
1486 int &numberSets,
CoinSet **&sets);
1493 virtual int readGMPL(
const char *filename,
const char *dataname = NULL);
1501 virtual void writeMps(
const char *filename,
1502 const char *extension =
"mps",
1503 double objSense = 0.0)
const = 0;
1519 const char **rowNames,
const char **columnNames,
1520 int formatType = 0,
int numberAcross = 2,
1521 double objSense = 0.0,
int numberSOS = 0,
1522 const CoinSet *setInfo = NULL)
const;
1546 virtual void writeLp(
const char *filename,
1547 const char *extension =
"lp",
1548 double epsilon = 1e-5,
1549 int numberAcross = 10,
1551 double objSense = 0.0,
1552 bool useRowNames =
true)
const;
1558 virtual void writeLp(FILE *fp,
1559 double epsilon = 1e-5,
1560 int numberAcross = 10,
1562 double objSense = 0.0,
1563 bool useRowNames =
true)
const;
1584 char const *
const *
const rowNames,
1585 char const *
const *
const columnNames,
1586 const double epsilon = 1.0e-5,
1587 const int numberAcross = 10,
1588 const int decimals = 5,
1589 const double objSense = 0.0,
1590 const bool useRowNames =
true)
const;
1597 char const *
const *
const rowNames,
1598 char const *
const *
const columnNames,
1599 const double epsilon = 1.0e-5,
1600 const int numberAcross = 10,
1601 const int decimals = 5,
1602 const double objSense = 0.0,
1603 const bool useRowNames =
true)
const;
1607 virtual int readLp(
const char *filename,
const double epsilon = 1e-5);
1611 int readLp(FILE *fp,
const double epsilon = 1e-5);
1625 bool ignoreNames =
true);
1630 void statistics(
double &minimumNegative,
double &maximumNegative,
1631 double &minimumPositive,
double &maximumPositive,
1632 int type = 3)
const;
1633 #ifdef COIN_SNAPSHOT
1634 virtual CoinSnapshot *snapshot(
bool createArrays =
true)
const;
1637 #ifdef COIN_FACTORIZATION_INFO
1799 bool enforceOptimality =
true);
1929 double *duals,
const double *c)
const;
1936 virtual void getBInvARow(
int row,
double *z,
double *slack = NULL)
const;
1939 virtual void getBInvRow(
int row,
double *z)
const;
1942 virtual void getBInvACol(
int col,
double *vec)
const;
1945 virtual void getBInvCol(
int col,
double *vec)
const;
1954 virtual void getBasics(
int *index)
const;
1983 virtual int pivot(
int colIn,
int colOut,
int outStatus);
1997 int &colOut,
int &outStatus,
2007 int colOut,
int outStatus,
2040 virtual void reset();
2058 char &sense,
double &right,
double &range)
const;
2064 double &lower,
double &upper)
const;
2067 template <
class T >
2071 return value < lower ? lower : (value > upper ? upper : value);
2157 char &sense,
double &right,
2158 double &range)
const
2165 if (upper == lower) {
2169 range = upper - lower;
2192 double &lower,
double &upper)
const
2197 lower = upper = right;
2208 lower = right - range;
virtual std::string getObjName(unsigned maxLen=static_cast< unsigned >(std::string::npos)) const
Return the name of the objective function.
virtual void applyColCut(const OsiColCut &cc)=0
Apply a column cut (adjust the bounds of one or more variables).
virtual void setColSolution(const double *colsol)=0
Set the primal solution variable values.
virtual void setRowSetTypes(const int *indexFirst, const int *indexLast, const char *senseList, const double *rhsList, const double *rangeList)
Set the type of a set of rows.
virtual bool isProvenDualInfeasible() const =0
Is dual infeasibility proven?
void setColumnType(int iColumn, char type)
Set column type.
Error Class thrown by an exception.
virtual bool isIterationLimitReached() const =0
Iteration limit reached?
virtual const double * getRowActivity() const =0
Get a pointer to array[getNumRows()] of row activity levels.
virtual std::vector< double * > getDualRays(int maxNumRays, bool fullRay=false) const =0
Get as many dual rays as the solver can provide.
virtual int readMps(const char *filename, const char *extension="mps")
Read a problem in MPS format from the given filename.
Just a marker, so that OsiSolverInterface can allocate a static sized array to store parameters...
virtual CoinBigIndex getNumElements() const =0
Get the number of nonzero elements.
virtual void replaceMatrixOptional(const CoinPackedMatrix &)
Replace the constraint matrix.
virtual OsiSolverInterface * clone(bool copyData=true) const =0
Clone.
virtual void setRowLower(int elementIndex, double elementValue)=0
Set a single row lower bound.
OsiSolverInterface & operator=(const OsiSolverInterface &rhs)
Assignment operator.
virtual int primalPivotResult(int colIn, int sign, int &colOut, int &outStatus, double &t, CoinPackedVector *dx)
Obtain a result of the primal pivot Outputs: colOut – leaving column, outStatus – its status...
virtual void activateRowCutDebugger(const char *modelName)
Activate the row cut debugger.
ApplyCutsReturnCode(const ApplyCutsReturnCode &rhs)
Copy constructor.
virtual int getIterationCount() const =0
Get the number of iterations it took to solve the problem (whatever `iteration' means to the solver)...
int getNumInconsistent() const
Number of logically inconsistent cuts.
virtual void deleteRowNames(int tgtStart, int len)
Delete len row names starting at index tgtStart.
virtual void replaceMatrix(const CoinPackedMatrix &)
Replace the constraint matrix.
bool defaultHandler() const
Return true if default handler.
void deleteObjects()
Delete all object information.
int getNumIneffective() const
Number of redundant or ineffective cuts.
virtual void getReducedGradient(double *columnReducedCosts, double *duals, const double *c) const
Calculate duals and reduced costs for the given objective coefficients.
int getNumInfeasible() const
Number of cuts that cause obvious infeasibility.
virtual bool isIntegerNonBinary(int colIndex) const
Return true if the variable is general integer.
virtual const char * getRowSense() const =0
Get a pointer to an array[getNumRows()] of row constraint senses.
virtual void setColLower(int elementIndex, double elementValue)=0
Set a single column lower bound.
int infeasible_
Counter for infeasible cuts.
virtual void getBInvRow(int row, double *z) const
Get a row of the basis inverse.
void setNumberObjects(int number)
Set the number of objects.
This class allows for a more structured use of algorithmic tweaking to an OsiSolverInterface.
OsiNameVec rowNames_
Row names.
virtual void setObjCoeff(int elementIndex, double elementValue)=0
Set an objective function coefficient.
NON Abstract Base Class for interfacing with cut generators or branching code or .
virtual void setColSetBounds(const int *indexFirst, const int *indexLast, const double *boundList)
Set the upper and lower bounds of a set of columns.
virtual const double * getRowPrice() const =0
Get pointer to array[getNumRows()] of dual variable values.
OsiAuxInfo * getAuxiliaryInfo() const
Get pointer to auxiliary info object.
int writeMpsNative(const char *filename, const char **rowNames, const char **columnNames, int formatType=0, int numberAcross=2, double objSense=0.0, int numberSOS=0, const CoinSet *setInfo=NULL) const
Write the problem in MPS format to the specified file with more control over the output.
virtual const OsiNameVec & getColNames()
Return a pointer to a vector of column names.
virtual const char * getColType(bool refresh=false) const
Return an array[getNumCols()] of column types.
virtual const CoinPackedMatrix * getMatrixByCol() const =0
Get a pointer to a column-wise copy of the matrix.
virtual int getNumIntegers() const
Get the number of integer variables.
void addObjects(int numberObjects, OsiObject **objects)
Add in object information.
virtual void setRowPrice(const double *rowprice)=0
Set dual solution variable values.
virtual void resolve()=0
Resolve an LP relaxation after problem modification.
Collections of row cuts and column cuts.
CoinMessageHandler * messageHandler() const
Return a pointer to the current message handler.
This is a simple minded model which is stored in a format which makes it easier to construct and modi...
bool hintParam_[OsiLastHintParam]
Array of hint parameters.
virtual void assignProblem(CoinPackedMatrix *&matrix, double *&collb, double *&colub, double *&obj, double *&rowlb, double *&rowub)=0
Load in a problem by assuming ownership of the arguments.
virtual bool isProvenPrimalInfeasible() const =0
Is primal infeasibility proven?
void findIntegers(bool justCount)
Identify integer variables and create corresponding objects.
void setLanguage(CoinMessages::Language language)
CoinMessages messages()
Return the current set of messages.
virtual const OsiNameVec & getRowNames()
Return a pointer to a vector of row names.
virtual bool getIntParam(OsiIntParam key, int &value) const
Get an integer parameter.
virtual void unmarkHotStart()
Delete the hot start snapshot.
virtual int findIntegersAndSOS(bool justCount)
Identify integer variables and SOS and create corresponding objects.
virtual void solveFromHotStart()
Optimize starting from the hot start snapshot.
virtual void setRowUpper(int elementIndex, double elementValue)=0
Set a single row upper bound.
int applied_
Counter for applied cuts.
int numberObjects_
Total number of objects.
virtual void setRowNames(OsiNameVec &srcNames, int srcStart, int len, int tgtStart)
Set multiple row names.
virtual void setColUpper(int elementIndex, double elementValue)=0
Set a single column upper bound.
virtual void enableSimplexInterface(bool doingPrimal)
Enables normal operation of subsequent functions.
virtual void branchAndBound()=0
Invoke solver's built-in enumeration algorithm.
virtual std::string getRowName(int rowIndex, unsigned maxLen=static_cast< unsigned >(std::string::npos)) const
Return the name of the row.
virtual void getBInvCol(int col, double *vec) const
Get a column of the basis inverse.
virtual void setRowName(int ndx, std::string name)
Set a row name.
void setApplicationData(void *appData)
Set application data.
virtual bool setIntParam(OsiIntParam key, int value)
Set an integer parameter.
virtual void applyRowCuts(int numberCuts, const OsiRowCut *cuts)
Apply a collection of row cuts which are all effective.
Base class for message handling.
OsiObject ** objects() const
Get the array of objects.
virtual bool isInteger(int colIndex) const
Return true if the variable is integer.
const OsiObject * object(int which) const
Get the specified object.
virtual void restoreBaseModel(int numberRows)
Reduce the constraint system to the specified number of constraints.
virtual int getNumCols() const =0
Get the number of columns.
void setAuxiliaryInfo(OsiAuxInfo *auxiliaryInfo)
Create a clone of an Auxiliary Information object.
virtual void addCol(const CoinPackedVectorBase &vec, const double collb, const double colub, const double obj)=0
Add a column (primal variable) to the problem.
virtual bool setStrParam(OsiStrParam key, const std::string &value)
Set a string parameter.
Abstract Base Class for describing an interface to a solver.
virtual bool getHintParam(OsiHintParam key, bool &yesNo, OsiHintStrength &strength, void *&otherInformation) const
Get a hint parameter (all information)
virtual void setRowBounds(int elementIndex, double lower, double upper)
Set a single row lower and upper bound.
virtual void setRowType(int index, char sense, double rightHandSide, double range)=0
Set the type of a single row.
Abstract base class for various sparse vectors.
virtual OsiVectorInt getFractionalIndices(const double etol=1.e-05) const
Get vector of indices of primal variables which are integer variables but have fractional values in t...
virtual CoinPackedMatrix * getMutableMatrixByCol() const
Get a pointer to a mutable column-wise copy of the matrix.
virtual bool setDblParam(OsiDblParam key, double value)
Set a double parameter.
virtual std::vector< double * > getPrimalRays(int maxNumRays) const =0
Get as many primal rays as the solver can provide.
ApplyCutsReturnCode()
Default constructor.
int extInconsistent_
Counter for model-inconsistent cuts.
virtual void writeLp(const char *filename, const char *extension="lp", double epsilon=1e-5, int numberAcross=10, int decimals=9, double objSense=0.0, bool useRowNames=true) const
Write the problem into an Lp file of the given filename with the specified extension.
virtual void deleteCols(const int num, const int *colIndices)=0
Remove a set of columns (primal variables) from the problem.
int ineffective_
Counter for ineffective cuts.
virtual bool isContinuous(int colIndex) const =0
Return true if the variable is continuous.
virtual void loadProblem(const CoinPackedMatrix &matrix, const double *collb, const double *colub, const double *obj, const double *rowlb, const double *rowub)=0
Load in a problem by copying the arguments.
virtual void addRows(const int numrows, const CoinPackedVectorBase *const *rows, const double *rowlb, const double *rowub)
Add a set of rows (constraints) to the problem.
double getIntegerTolerance() const
Return the integrality tolerance of the underlying solver.
virtual int pivot(int colIn, int colOut, int outStatus)
Perform a pivot by substituting a colIn for colOut in the basis.
void statistics(double &minimumNegative, double &maximumNegative, double &minimumPositive, double &maximumPositive, int type=3) const
Get some statistics about model - min/max always computed type 0->4 , larger gives more information 0...
friend void OsiSolverInterfaceCommonUnitTest(const OsiSolverInterface *emptySi, const std::string &mpsDir, const std::string &netlibDir)
A function that tests the methods in the OsiSolverInterface class.
const char * columnType(bool refresh=false) const
Return an array[getNumCols()] of column types.
double dblParam_[OsiLastDblParam]
Array of double parameters.
virtual void setObjName(std::string name)
Set the name of the objective function.
virtual CoinWarmStart * getWarmStart() const =0
Get warm start information.
virtual const double * getRightHandSide() const =0
Get a pointer to an array[getNumRows()] of row right-hand sides.
This is a first attempt at a message handler.
CoinMessageHandler * handler_
Message handler.
virtual const double * getColLower() const =0
Get a pointer to an array[getNumCols()] of column lower bounds.
virtual void setColBounds(int elementIndex, double lower, double upper)
Set a single column lower and upper bound.
virtual bool isPrimalObjectiveLimitReached() const
Is the given primal objective limit reached?
T forceIntoRange(const T value, const T lower, const T upper) const
A quick inlined function to force a value to be between a minimum and a maximum value.
std::vector< double > strictColSolution_
Column solution satisfying lower and upper column bounds.
virtual void getBasisStatus(int *cstat, int *rstat) const
Retrieve status information for column and row variables.
int getNumInconsistentWrtIntegerModel() const
Number of cuts inconsistent with the current model.
virtual std::string dfltRowColName(char rc, int ndx, unsigned digits=7) const
Generate a standard name of the form Rnnnnnnn or Cnnnnnnn.
virtual int getNumRows() const =0
Get the number of rows.
virtual int readGMPL(const char *filename, const char *dataname=NULL)
Read a problem in GMPL format from the given filenames.
virtual const double * getStrictColSolution()
Get a pointer to an array[getNumCols()] of primal variable values guaranteed to be between the column...
OsiSolverInterface()
Default Constructor.
void convertSenseToBound(const char sense, const double right, const double range, double &lower, double &upper) const
A quick inlined function to convert from the sense/rhs/range style of constraint definition to the lb...
virtual void addCols(const int numcols, const CoinPackedVectorBase *const *cols, const double *collb, const double *colub, const double *obj)
Add a set of columns (primal variables) to the problem.
virtual bool isBinary(int colIndex) const
Return true if the variable is binary.
virtual double getInfinity() const =0
Get the solver's value for infinity.
int numberObjects() const
Get the number of objects.
virtual int canDoSimplexInterface() const
Return the simplex implementation level.
virtual void setColName(int ndx, std::string name)
Set a column name.
OsiAuxInfo * appDataEtc_
Pointer to user-defined data structure - and more if user wants.
virtual bool getHintParam(OsiHintParam key, bool &yesNo, OsiHintStrength &strength) const
Get a hint parameter (sense and strength only)
And this means throw an exception if not possible.
CoinMessages messages_
Messages.
virtual void getBInvARow(int row, double *z, double *slack=NULL) const
Get a row of the tableau.
virtual void enableFactorization() const
Prepare the solver for the use of tableau access methods.
virtual void getBasics(int *index) const
Get indices of basic variables.
virtual std::string getColName(int colIndex, unsigned maxLen=static_cast< unsigned >(std::string::npos)) const
Return the name of the column.
OsiObject * modifiableObject(int which) const
Get the specified object.
virtual bool setHintParam(OsiHintParam key, bool yesNo=true, OsiHintStrength strength=OsiHintTry, void *=NULL)
Set a hint parameter.
void incrementInfeasible()
Increment infeasible cut counter.
virtual double getObjValue() const =0
Get the objective function value.
std::vector< std::string > OsiNameVec
Data type for name vectors.
virtual bool basisIsAvailable() const
Check if an optimal basis is available.
virtual void saveBaseModel()
Save a copy of the base model.
virtual bool isProvenOptimal() const =0
Is optimality proven?
Primal feasibility tolerance.
virtual bool isAbandoned() const =0
Are there numerical difficulties?
void deleteBranchingInfo(int numberDeleted, const int *which)
Deletes branching information before columns deleted.
CoinMessages * messagesPointer()
Return a pointer to the current set of messages.
int intParam_[OsiLastIntParam]
Array of integer parameters.
virtual void initialSolve()=0
Solve initial LP relaxation.
Copyright (C) 2000 – 2003, International Business Machines Corporation and others.
virtual ApplyCutsReturnCode applyCuts(const OsiCuts &cs, double effectivenessLb=0.0)
Apply a collection of cuts.
std::string strParam_[OsiLastStrParam]
Array of string parameters.
Sparse Matrix Base Class.
void copyParameters(OsiSolverInterface &rhs)
Copy all parameters in this section from one solver to another.
double forceFeasible()
Use current solution to set bounds so current integer feasible solution will stay feasible...
virtual void setObjCoeffSet(const int *indexFirst, const int *indexLast, const double *coeffList)
Set a set of objective function coefficients.
ApplyCutsReturnCode & operator=(const ApplyCutsReturnCode &rhs)
Assignment operator.
virtual void setRowSetBounds(const int *indexFirst, const int *indexLast, const double *boundList)
Set the bounds on a set of rows.
virtual int readLp(const char *filename, const double epsilon=1e-5)
Read file in LP format from file with name filename.
virtual void disableSimplexInterface()
Undo whatever setting changes the above method had to make.
virtual const double * getColSolution() const =0
Get a pointer to an array[getNumCols()] of primal variable values.
This means it is only a hint.
CoinWarmStart * ws_
Warm start information used for hot starts when the default hot start implementation is used...
virtual ~OsiSolverInterface()
Destructor.
Language
Supported languages.
virtual double getObjSense() const =0
Get the objective function sense.
void convertBoundToSense(const double lower, const double upper, char &sense, double &right, double &range) const
A quick inlined function to convert from the lb/ub style of constraint definition to the sense/rhs/ra...
virtual bool isFreeBinary(int colIndex) const
Return true if the variable is binary and not fixed.
virtual CoinWarmStart * getPointerToWarmStart(bool &mustDelete)
Get warm start information.
virtual void writeMps(const char *filename, const char *extension="mps", double objSense=0.0) const =0
Write the problem in MPS format to the specified file.
bool defaultHandler_
Flag to say if the currrent handler is the default handler.
virtual int loadFromCoinModel(CoinModel &modelObject, bool keepSolution=false)
Load a model from a CoinModel object.
virtual bool getStrParam(OsiStrParam key, std::string &value) const
Get a string parameter.
virtual void setInteger(int index)=0
Set the index-th variable to be an integer variable.
virtual void setColNames(OsiNameVec &srcNames, int srcStart, int len, int tgtStart)
Set multiple column names.
void * getApplicationData() const
Get application data.
virtual void getBInvACol(int col, double *vec) const
Get a column of the tableau.
std::string objName_
Objective name.
void incrementInternallyInconsistent()
Increment logically inconsistent cut counter.
virtual void deleteColNames(int tgtStart, int len)
Delete len column names starting at index tgtStart.
virtual void setContinuous(int index)=0
Set the index-th variable to be a continuous variable.
void incrementExternallyInconsistent()
Increment model-inconsistent counter.
virtual void setObjective(const double *array)
Set the objective coefficients for all columns.
virtual void passInMessageHandler(CoinMessageHandler *handler)
Pass in a message handler.
virtual int setBasisStatus(const int *cstat, const int *rstat)
Set the status of column and row variables and update the basis factorization and solution...
int getNumApplied() const
Number of cuts applied.
virtual void deleteRows(const int num, const int *rowIndices)=0
Delete a set of rows (constraints) from the problem.
virtual void markHotStart()
Create a hot start snapshot of the optimization process.
Validate cuts against a known solution.
void incrementApplied()
Increment applied cut counter.
virtual void addRow(const CoinPackedVectorBase &vec, const double rowlb, const double rowub)=0
Add a row (constraint) to the problem.
~ApplyCutsReturnCode()
Destructor.
std::vector< int > OsiVectorInt
Vector of int.
char * columnType_
Column type 0 - continuous 1 - binary (may get fixed later) 2 - general integer (may get fixed later)...
virtual int dualPivotResult(int &colIn, int &sign, int colOut, int outStatus, double &t, CoinPackedVector *dx)
Obtain a result of the dual pivot (similar to the previous method) Differences: entering variable and...
friend void OsiSolverInterfaceMpsUnitTest(const std::vector< OsiSolverInterface * > &vecSiP, const std::string &mpsDir)
A function that tests that a lot of problems given in MPS files (mostly the NETLIB problems) solve pr...
int differentModel(OsiSolverInterface &other, bool ignoreNames=true)
Check two models against each other.
Internal class for obtaining status from the applyCuts method.
virtual void reset()
Reset the solver interface.
void newLanguage(CoinMessages::Language language)
Set language.
virtual const double * getObjCoefficients() const =0
Get a pointer to an array[getNumCols()] of objective function coefficients.
virtual bool getDblParam(OsiDblParam key, double &value) const
Get a double parameter.
virtual const CoinPackedMatrix * getMatrixByRow() const =0
Get a pointer to a row-wise copy of the matrix.
virtual bool setWarmStart(const CoinWarmStart *warmstart)=0
Set warm start information.
virtual void disableFactorization() const
Undo the effects of enableFactorization.
int intInconsistent_
Counter for logically inconsistent cuts.
virtual CoinPackedMatrix * getMutableMatrixByRow() const
Get a pointer to a mutable row-wise copy of the matrix.
virtual bool isDualObjectiveLimitReached() const
Is the given dual objective limit reached?
Class to read and write Lp files.
virtual const double * getRowUpper() const =0
Get a pointer to an array[getNumRows()] of row upper bounds.
virtual const double * getReducedCost() const =0
Get a pointer to an array[getNumCols()] of reduced costs.
virtual const double * getRowLower() const =0
Get a pointer to an array[getNumRows()] of row lower bounds.
virtual int reducedCostFix(double gap, bool justInteger=true)
Fix variables at bound based on reduced cost.
Abstract base class for `objects'.
virtual const double * getRowRange() const =0
Get a pointer to an array[getNumRows()] of row ranges.
OsiObject ** object_
Integer and ... information (integer info normally at beginning)
virtual void applyRowCut(const OsiRowCut &rc)=0
Apply a row cut (append to the constraint matrix).
OsiHintStrength hintStrength_[OsiLastHintParam]
Array of hint strengths.
virtual CoinWarmStart * getEmptyWarmStart() const =0
Get an empty warm start object.
OsiNameVec colNames_
Column names.
virtual bool getHintParam(OsiHintParam key, bool &yesNo) const
Get a hint parameter (sense only)
In many cases it is natural to build a model by adding one row at a time.
int numberIntegers_
Number of integers.
Abstract base class for warm start information.
void setInitialData()
Set OsiSolverInterface object state for default constructor.
const OsiRowCutDebugger * getRowCutDebugger() const
Get the row cut debugger provided the solution known to the debugger is within the feasible region he...
void incrementIneffective()
Increment ineffective cut counter.
int writeLpNative(const char *filename, char const *const *const rowNames, char const *const *const columnNames, const double epsilon=1.0e-5, const int numberAcross=10, const int decimals=5, const double objSense=0.0, const bool useRowNames=true) const
Write the problem into an Lp file.
void setRowColNames(const CoinMpsIO &mps)
Set row and column names from a CoinMpsIO object.
Class to hold and manipulate an array of massaged messages.
OsiRowCutDebugger * getRowCutDebuggerAlways() const
Get the row cut debugger object.
OsiRowCutDebugger * rowCutDebugger_
Pointer to row cut debugger object.
virtual void setObjSense(double s)=0
Set the objective function sense.
Very simple class for containing data on set.
bool optimalBasisIsAvailable() const
Synonym for basisIsAvailable.
virtual const double * getColUpper() const =0
Get a pointer to an array[getNumCols()] of column upper bounds.