/* $Id: ClpDynamicExampleMatrix.hpp 1936 2013-04-09 10:29:27Z forrest $ */ // Copyright (C) 2004, International Business Machines // Corporation and others. All Rights Reserved. // This code is licensed under the terms of the Eclipse Public License (EPL). #ifndef ClpDynamicExampleMatrix_H #define ClpDynamicExampleMatrix_H #include "CoinPragma.hpp" #include "ClpDynamicMatrix.hpp" class ClpSimplex; /** This implements a dynamic matrix when we have a limit on the number of "interesting rows". This version inherits from ClpDynamicMatrix and knows that the real matrix is gub. This acts just like ClpDynamicMatrix but generates columns. This "generates" columns by choosing from stored set. It is maent as a starting point as to how you could use shortest path to generate columns. So it has its own copy of all data needed. It populates ClpDynamicWatrix with enough to allow for gub keys and active variables. In turn ClpDynamicMatrix populates a CoinPackedMatrix with active columns and rows. As there is one copy here and one in ClpDynamicmatrix these names end in Gen_ It is obviously more efficient to just use ClpDynamicMatrix but the ideas is to show how much code a user would have to write. This does not work very well with bounds */ class ClpDynamicExampleMatrix : public ClpDynamicMatrix { public: /**@name Main functions provided */ //@{ /// Partial pricing virtual void partialPricing(ClpSimplex * model, double start, double end, int & bestSequence, int & numberWanted); /** Creates a variable. This is called after partial pricing and will modify matrix. Will update bestSequence. */ virtual void createVariable(ClpSimplex * model, int & bestSequence); /** If addColumn forces compression then this allows descendant to know what to do. If >= then entry stayed in, if -1 then entry went out to lower bound.of zero. Entries at upper bound (really nonzero) never go out (at present). */ virtual void packDown(const int * in, int numberToPack); //@} /**@name Constructors, destructor */ //@{ /** Default constructor. */ ClpDynamicExampleMatrix(); /** This is the real constructor. It assumes factorization frequency will not be changed. This resizes model !!!! The contents of original matrix in model will be taken over and original matrix will be sanitized so can be deleted (to avoid a very small memory leak) */ ClpDynamicExampleMatrix(ClpSimplex * model, int numberSets, int numberColumns, const int * starts, const double * lower, const double * upper, const int * startColumn, const int * row, const double * element, const double * cost, const double * columnLower = NULL, const double * columnUpper = NULL, const unsigned char * status = NULL, const unsigned char * dynamicStatus = NULL, int numberIds = 0, const int *ids = NULL); #if 0 /// This constructor just takes over ownership (except for lower, upper) ClpDynamicExampleMatrix(ClpSimplex * model, int numberSets, int numberColumns, int * starts, const double * lower, const double * upper, int * startColumn, int * row, double * element, double * cost, double * columnLower = NULL, double * columnUpper = NULL, const unsigned char * status = NULL, const unsigned char * dynamicStatus = NULL, int numberIds = 0, const int *ids = NULL); #endif /** Destructor */ virtual ~ClpDynamicExampleMatrix(); //@} /**@name Copy method */ //@{ /** The copy constructor. */ ClpDynamicExampleMatrix(const ClpDynamicExampleMatrix&); ClpDynamicExampleMatrix& operator=(const ClpDynamicExampleMatrix&); /// Clone virtual ClpMatrixBase * clone() const ; //@} /**@name gets and sets */ //@{ /// Starts of each column inline CoinBigIndex * startColumnGen() const { return startColumnGen_; } /// rows inline int * rowGen() const { return rowGen_; } /// elements inline double * elementGen() const { return elementGen_; } /// costs inline double * costGen() const { return costGen_; } /// full starts inline int * fullStartGen() const { return fullStartGen_; } /// ids in next level matrix inline int * idGen() const { return idGen_; } /// Optional lower bounds on columns inline double * columnLowerGen() const { return columnLowerGen_; } /// Optional upper bounds on columns inline double * columnUpperGen() const { return columnUpperGen_; } /// size inline int numberColumns() const { return numberColumns_; } inline void setDynamicStatusGen(int sequence, DynamicStatus status) { unsigned char & st_byte = dynamicStatusGen_[sequence]; st_byte = static_cast(st_byte & ~7); st_byte = static_cast(st_byte | status); } inline DynamicStatus getDynamicStatusGen(int sequence) const { return static_cast (dynamicStatusGen_[sequence] & 7); } /// Whether flagged inline bool flaggedGen(int i) const { return (dynamicStatusGen_[i] & 8) != 0; } inline void setFlaggedGen(int i) { dynamicStatusGen_[i] = static_cast(dynamicStatusGen_[i] | 8); } inline void unsetFlagged(int i) { dynamicStatusGen_[i] = static_cast(dynamicStatusGen_[i] & ~8); } //@} protected: /**@name Data members The data members are protected to allow access for derived classes. */ //@{ /// size int numberColumns_; /// Starts of each column CoinBigIndex * startColumnGen_; /// rows int * rowGen_; /// elements double * elementGen_; /// costs double * costGen_; /// start of each set int * fullStartGen_; /// for status and which bound unsigned char * dynamicStatusGen_; /** identifier for each variable up one level (startColumn_, etc). This is of length maximumGubColumns_. For this version it is just sequence number at this level */ int * idGen_; /// Optional lower bounds on columns double * columnLowerGen_; /// Optional upper bounds on columns double * columnUpperGen_; //@} }; #endif