/* $Id: CoinMpsIO.hpp 1642 2013-10-16 00:43:14Z tkr $ */ // Copyright (C) 2000, International Business Machines // Corporation and others. All Rights Reserved. // This code is licensed under the terms of the Eclipse Public License (EPL). #ifndef CoinMpsIO_H #define CoinMpsIO_H #if defined(_MSC_VER) // Turn off compiler warning about long names # pragma warning(disable:4786) #endif #include #include #include "CoinUtilsConfig.h" #include "CoinPackedMatrix.hpp" #include "CoinMessageHandler.hpp" #include "CoinFileIO.hpp" class CoinModel; /// The following lengths are in decreasing order (for 64 bit etc) /// Large enough to contain element index /// This is already defined as CoinBigIndex /// Large enough to contain column index typedef int COINColumnIndex; /// Large enough to contain row index (or basis) typedef int COINRowIndex; // We are allowing free format - but there is a limit! // User can override by using CXXFLAGS += -DCOIN_MAX_FIELD_LENGTH=nnn #ifndef COIN_MAX_FIELD_LENGTH #define COIN_MAX_FIELD_LENGTH 160 #endif #define MAX_CARD_LENGTH 5*COIN_MAX_FIELD_LENGTH+80 enum COINSectionType { COIN_NO_SECTION, COIN_NAME_SECTION, COIN_ROW_SECTION, COIN_COLUMN_SECTION, COIN_RHS_SECTION, COIN_RANGES_SECTION, COIN_BOUNDS_SECTION, COIN_ENDATA_SECTION, COIN_EOF_SECTION, COIN_QUADRATIC_SECTION, COIN_CONIC_SECTION,COIN_QUAD_SECTION,COIN_SOS_SECTION, COIN_BASIS_SECTION,COIN_UNKNOWN_SECTION }; enum COINMpsType { COIN_N_ROW, COIN_E_ROW, COIN_L_ROW, COIN_G_ROW, COIN_BLANK_COLUMN, COIN_S1_COLUMN, COIN_S2_COLUMN, COIN_S3_COLUMN, COIN_INTORG, COIN_INTEND, COIN_SOSEND, COIN_UNSET_BOUND, COIN_UP_BOUND, COIN_FX_BOUND, COIN_LO_BOUND, COIN_FR_BOUND, COIN_MI_BOUND, COIN_PL_BOUND, COIN_BV_BOUND, COIN_UI_BOUND, COIN_LI_BOUND, COIN_BOTH_BOUNDS_SET, COIN_SC_BOUND, COIN_S1_BOUND, COIN_S2_BOUND, COIN_BS_BASIS, COIN_XL_BASIS, COIN_XU_BASIS, COIN_LL_BASIS, COIN_UL_BASIS, COIN_UNKNOWN_MPS_TYPE }; class CoinMpsIO; /// Very simple code for reading MPS data class CoinMpsCardReader { public: /**@name Constructor and destructor */ //@{ /// Constructor expects file to be open /// This one takes gzFile if fp null CoinMpsCardReader ( CoinFileInput *input, CoinMpsIO * reader ); /// Destructor ~CoinMpsCardReader ( ); //@} /**@name card stuff */ //@{ /// Read to next section COINSectionType readToNextSection ( ); /// Gets next field and returns section type e.g. COIN_COLUMN_SECTION COINSectionType nextField ( ); /** Gets next field for .gms file and returns type. -1 - EOF 0 - what we expected (and processed so pointer moves past) 1 - not what we expected leading blanks always ignored input types 0 - anything - stops on non blank card 1 - name (in columnname) 2 - value 3 - value name pair 4 - equation type 5 - ; */ int nextGmsField ( int expectedType ); /// Returns current section type inline COINSectionType whichSection ( ) const { return section_; } /// Sets current section type inline void setWhichSection(COINSectionType section ) { section_=section; } /// Sees if free format. inline bool freeFormat() const { return freeFormat_;} /// Sets whether free format. Mainly for blank RHS etc inline void setFreeFormat(bool yesNo) { freeFormat_=yesNo;} /// Only for first field on card otherwise BLANK_COLUMN /// e.g. COIN_E_ROW inline COINMpsType mpsType ( ) const { return mpsType_; } /// Reads and cleans card - taking out trailing blanks - return 1 if EOF int cleanCard(); /// Returns row name of current field inline const char *rowName ( ) const { return rowName_; } /// Returns column name of current field inline const char *columnName ( ) const { return columnName_; } /// Returns value in current field inline double value ( ) const { return value_; } /// Returns value as string in current field inline const char *valueString ( ) const { return valueString_; } /// Whole card (for printing) inline const char *card ( ) const { return card_; } /// Whole card - so we look at it (not const so nextBlankOr will work for gms reader) inline char *mutableCard ( ) { return card_; } /// set position (again so gms reader will work) inline void setPosition(char * position) { position_=position;} /// get position (again so gms reader will work) inline char * getPosition() const { return position_;} /// Returns card number inline CoinBigIndex cardNumber ( ) const { return cardNumber_; } /// Returns file input inline CoinFileInput * fileInput ( ) const { return input_; } /// Sets whether strings allowed inline void setStringsAllowed() { stringsAllowed_=true;} //@} ////////////////// data ////////////////// protected: /**@name data */ //@{ /// Current value double value_; /// Current card image char card_[MAX_CARD_LENGTH]; /// Current position within card image char *position_; /// End of card char *eol_; /// Current COINMpsType COINMpsType mpsType_; /// Current row name char rowName_[COIN_MAX_FIELD_LENGTH]; /// Current column name char columnName_[COIN_MAX_FIELD_LENGTH]; /// File input CoinFileInput *input_; /// Which section we think we are in COINSectionType section_; /// Card number CoinBigIndex cardNumber_; /// Whether free format. Just for blank RHS etc bool freeFormat_; /// Whether IEEE - 0 no, 1 INTEL, 2 not INTEL int ieeeFormat_; /// If all names <= 8 characters then allow embedded blanks bool eightChar_; /// MpsIO CoinMpsIO * reader_; /// Message handler CoinMessageHandler * handler_; /// Messages CoinMessages messages_; /// Current element as characters (only if strings allowed) char valueString_[COIN_MAX_FIELD_LENGTH]; /// Whether strings allowed bool stringsAllowed_; //@} public: /**@name methods */ //@{ /// type - 0 normal, 1 INTEL IEEE, 2 other IEEE double osi_strtod(char * ptr, char ** output, int type); /// remove blanks static void strcpyAndCompress ( char *to, const char *from ); /// static char * nextBlankOr ( char *image ); /// For strings double osi_strtod(char * ptr, char ** output); //@} }; //############################################################################# #ifdef USE_SBB class SbbObject; class SbbModel; #endif /// Very simple class for containing data on set class CoinSet { public: /**@name Constructor and destructor */ //@{ /// Default constructor CoinSet ( ); /// Constructor CoinSet ( int numberEntries, const int * which); /// Copy constructor CoinSet (const CoinSet &); /// Assignment operator CoinSet & operator=(const CoinSet& rhs); /// Destructor virtual ~CoinSet ( ); //@} /**@name gets */ //@{ /// Returns number of entries inline int numberEntries ( ) const { return numberEntries_; } /// Returns type of set - 1 =SOS1, 2 =SOS2 inline int setType ( ) const { return setType_; } /// Returns list of variables inline const int * which ( ) const { return which_; } /// Returns weights inline const double * weights ( ) const { return weights_; } //@} #ifdef USE_SBB /**@name Use in sbb */ //@{ /// returns an object of type SbbObject virtual SbbObject * sbbObject(SbbModel * model) const { return NULL;} //@} #endif ////////////////// data ////////////////// protected: /**@name data */ //@{ /// Number of entries int numberEntries_; /// type of set int setType_; /// Which variables are in set int * which_; /// Weights double * weights_; //@} }; //############################################################################# /// Very simple class for containing SOS set class CoinSosSet : public CoinSet{ public: /**@name Constructor and destructor */ //@{ /// Constructor CoinSosSet ( int numberEntries, const int * which, const double * weights, int type); /// Destructor virtual ~CoinSosSet ( ); //@} #ifdef USE_SBB /**@name Use in sbb */ //@{ /// returns an object of type SbbObject virtual SbbObject * sbbObject(SbbModel * model) const ; //@} #endif ////////////////// data ////////////////// protected: /**@name data */ //@{ //@} }; //############################################################################# /** MPS IO Interface This class can be used to read in mps files without a solver. After reading the file, the CoinMpsIO object contains all relevant data, which may be more than a particular OsiSolverInterface allows for. Items may be deleted to allow for flexibility of data storage. The implementation makes the CoinMpsIO object look very like a dummy solver, as the same conventions are used. */ class CoinMpsIO { friend void CoinMpsIOUnitTest(const std::string & mpsDir); public: /** @name Methods to retrieve problem information These methods return information about the problem held by the CoinMpsIO object. Querying an object 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 always valid */ //@{ /// Get number of columns int getNumCols() const; /// Get number of rows int getNumRows() const; /// Get number of nonzero elements int getNumElements() const; /// Get pointer to array[getNumCols()] of column lower bounds const double * getColLower() const; /// Get pointer to array[getNumCols()] of column upper bounds const double * getColUpper() const; /** Get pointer to array[getNumRows()] of constraint senses. */ const char * getRowSense() const; /** Get pointer to array[getNumRows()] of constraint right-hand sides. Given constraints with upper (rowupper) and/or lower (rowlower) bounds, the constraint right-hand side (rhs) is set as */ const double * getRightHandSide() const; /** Get pointer to array[getNumRows()] of row ranges. Given constraints with upper (rowupper) and/or lower (rowlower) bounds, the constraint range (rowrange) is set as Put another way, only range constraints have a nontrivial value for rowrange. */ const double * getRowRange() const; /// Get pointer to array[getNumRows()] of row lower bounds const double * getRowLower() const; /// Get pointer to array[getNumRows()] of row upper bounds const double * getRowUpper() const; /// Get pointer to array[getNumCols()] of objective function coefficients const double * getObjCoefficients() const; /// Get pointer to row-wise copy of the coefficient matrix const CoinPackedMatrix * getMatrixByRow() const; /// Get pointer to column-wise copy of the coefficient matrix const CoinPackedMatrix * getMatrixByCol() const; /// Return true if column is a continuous variable bool isContinuous(int colNumber) const; /** Return true if a column is an integer variable Note: This function returns true if the the column is a binary or general integer variable. */ bool isInteger(int columnNumber) const; /** Returns array[getNumCols()] specifying if a variable is integer. At present, simply coded as zero (continuous) and non-zero (integer) May be extended at a later date. */ const char * integerColumns() const; /** Returns the row name for the specified index. Returns 0 if the index is out of range. */ const char * rowName(int index) const; /** Returns the column name for the specified index. Returns 0 if the index is out of range. */ const char * columnName(int index) const; /** Returns the index for the specified row name Returns -1 if the name is not found. Returns numberRows for the objective row and > numberRows for dropped free rows. */ int rowIndex(const char * name) const; /** Returns the index for the specified column name Returns -1 if the name is not found. */ int columnIndex(const char * name) const; /** Returns the (constant) objective offset This is the RHS entry for the objective row */ double objectiveOffset() const; /// Set objective offset inline void setObjectiveOffset(double value) { objectiveOffset_=value;} /// Return the problem name const char * getProblemName() const; /// Return the objective name const char * getObjectiveName() const; /// Return the RHS vector name const char * getRhsName() const; /// Return the range vector name const char * getRangeName() const; /// Return the bound vector name const char * getBoundName() const; /// Number of string elements inline int numberStringElements() const { return numberStringElements_;} /// String element inline const char * stringElement(int i) const { return stringElements_[i];} //@} /** @name Methods to set problem information Methods to load a problem into the CoinMpsIO object. */ //@{ /// Set the problem data void setMpsData(const CoinPackedMatrix& m, const double infinity, const double* collb, const double* colub, const double* obj, const char* integrality, const double* rowlb, const double* rowub, char const * const * const colnames, char const * const * const rownames); void setMpsData(const CoinPackedMatrix& m, const double infinity, const double* collb, const double* colub, const double* obj, const char* integrality, const double* rowlb, const double* rowub, const std::vector & colnames, const std::vector & rownames); void setMpsData(const CoinPackedMatrix& m, const double infinity, const double* collb, const double* colub, const double* obj, const char* integrality, const char* rowsen, const double* rowrhs, const double* rowrng, char const * const * const colnames, char const * const * const rownames); void setMpsData(const CoinPackedMatrix& m, const double infinity, const double* collb, const double* colub, const double* obj, const char* integrality, const char* rowsen, const double* rowrhs, const double* rowrng, const std::vector & colnames, const std::vector & rownames); /** Pass in an array[getNumCols()] specifying if a variable is integer. At present, simply coded as zero (continuous) and non-zero (integer) May be extended at a later date. */ void copyInIntegerInformation(const char * integerInformation); /// Set problem name void setProblemName(const char *name) ; /// Set objective name void setObjectiveName(const char *name) ; //@} /** @name Parameter set/get methods Methods to set and retrieve MPS IO parameters. */ //@{ /// Set infinity void setInfinity(double value); /// Get infinity double getInfinity() const; /// Set default upper bound for integer variables void setDefaultBound(int value); /// Get default upper bound for integer variables int getDefaultBound() const; /// Whether to allow string elements inline int allowStringElements() const { return allowStringElements_;} /// Whether to allow string elements (0 no, 1 yes, 2 yes and try flip) inline void setAllowStringElements(int yesNo) { allowStringElements_ = yesNo;} /** Small element value - elements less than this set to zero on input default is 1.0e-14 */ inline double getSmallElementValue() const { return smallElement_;} inline void setSmallElementValue(double value) { smallElement_=value;} //@} /** @name Methods for problem input and output Methods to read and write MPS format problem files. The read and write methods return the number of errors that occurred during the IO operation, or -1 if no file is opened. \note If the CoinMpsIO class was compiled with support for libz then readMps will automatically try to append .gz to the file name and open it as a compressed file if the specified file name cannot be opened. (Automatic append of the .bz2 suffix when libbz is used is on the TODO list.) \todo Allow for file pointers and positioning */ //@{ /// Set the current file name for the CoinMpsIO object void setFileName(const char * name); /// Get the current file name for the CoinMpsIO object const char * getFileName() const; /** Read a problem in MPS format from the given filename. Use "stdin" or "-" to read from stdin. */ int readMps(const char *filename, const char *extension = "mps"); /** Read a problem in MPS format from the given filename. Use "stdin" or "-" to read from stdin. But do sets as well */ int readMps(const char *filename, const char *extension , int & numberSets, CoinSet **& sets); /** Read a problem in MPS format from a previously opened file More precisely, read a problem using a CoinMpsCardReader object already associated with this CoinMpsIO object. \todo Provide an interface that will allow a client to associate a CoinMpsCardReader object with a CoinMpsIO object by setting the cardReader_ field. */ int readMps(); /// and int readMps(int & numberSets, CoinSet **& sets); /** Read a basis in MPS format from the given filename. If VALUES on NAME card and solution not NULL fills in solution status values as for CoinWarmStartBasis (but one per char) -1 file error, 0 normal, 1 has solution values Use "stdin" or "-" to read from stdin. If sizes of names incorrect - read without names */ int readBasis(const char *filename, const char *extension , double * solution, unsigned char *rowStatus, unsigned char *columnStatus, const std::vector & colnames,int numberColumns, const std::vector & rownames, int numberRows); /** Read a problem in GAMS format from the given filename. Use "stdin" or "-" to read from stdin. if convertObjective then massages objective column */ int readGms(const char *filename, const char *extension = "gms",bool convertObjective=false); /** Read a problem in GAMS format from the given filename. Use "stdin" or "-" to read from stdin. But do sets as well */ int readGms(const char *filename, const char *extension , int & numberSets, CoinSet **& sets); /** Read a problem in GAMS format from a previously opened file More precisely, read a problem using a CoinMpsCardReader object already associated with this CoinMpsIO object. */ // Not for now int readGms(); /// and int readGms(int & numberSets, CoinSet **& sets); /** Read a problem in GMPL (subset of AMPL) format from the given filenames. */ int readGMPL(const char *modelName, const char * dataName=NULL, bool keepNames=false); /** Write the problem in MPS format to a file with the given filename. \param compression can be set to three values to indicate what kind of file should be written
  • 0: plain text (default)
  • 1: gzip compressed (.gz is appended to \c filename)
  • 2: bzip2 compressed (.bz2 is appended to \c filename) (TODO)
If the library was not compiled with the requested compression then writeMps falls back to writing a plain text file. \param formatType specifies the precision to used for values in the MPS file
  • 0: normal precision (default)
  • 1: extra accuracy
  • 2: IEEE hex
\param numberAcross specifies whether 1 or 2 (default) values should be specified on every data line in the MPS file. \param quadratic specifies quadratic objective to be output */ int writeMps(const char *filename, int compression = 0, int formatType = 0, int numberAcross = 2, CoinPackedMatrix * quadratic = NULL, int numberSOS=0,const CoinSet * setInfo=NULL) const; /// Return card reader object so can see what last card was e.g. QUADOBJ inline const CoinMpsCardReader * reader() const { return cardReader_;} /** Read in a quadratic objective from the given filename. If filename is NULL (or the same as the currently open file) then reading continues from the current file. If not, the file is closed and the specified file is opened. Code should be added to general MPS reader to read this if QSECTION Data is assumed to be Q and objective is c + 1/2 xT Q x No assumption is made for symmetry, positive definite, etc. No check is made for duplicates or non-triangular if checkSymmetry==0. If 1 checks lower triangular (so off diagonal should be 2*Q) if 2 makes lower triangular and assumes full Q (but adds off diagonals) Arrays should be deleted by delete [] Returns number of errors:
  • -1: bad file
  • -2: no Quadratic section
  • -3: an empty section
  • +n: then matching errors etc (symmetry forced)
  • -4: no matching errors but fails triangular test (triangularity forced)
columnStart is numberColumns+1 long, others numberNonZeros */ int readQuadraticMps(const char * filename, int * &columnStart, int * &column, double * &elements, int checkSymmetry); /** Read in a list of cones from the given filename. If filename is NULL (or the same as the currently open file) then reading continues from the current file. If not, the file is closed and the specified file is opened. Code should be added to general MPS reader to read this if CSECTION No checking is done that in unique cone Arrays should be deleted by delete [] Returns number of errors, -1 bad file, -2 no conic section, -3 empty section columnStart is numberCones+1 long, other number of columns in matrix coneType is 1 for QUAD, 2 for RQUAD (numberCones long) */ int readConicMps(const char * filename, int * &columnStart, int * &column, int * &coneType, int & numberCones); /// Set whether to move objective from matrix inline void setConvertObjective(bool trueFalse) { convertObjective_=trueFalse;} /// copies in strings from a CoinModel - returns number int copyStringElements(const CoinModel * model); //@} /** @name Constructors and destructors */ //@{ /// Default Constructor CoinMpsIO(); /// Copy constructor CoinMpsIO (const CoinMpsIO &); /// Assignment operator CoinMpsIO & operator=(const CoinMpsIO& rhs); /// Destructor ~CoinMpsIO (); //@} /**@name Message handling */ //@{ /** Pass in Message handler Supply a custom message handler. It will not be destroyed when the CoinMpsIO object is destroyed. */ void passInMessageHandler(CoinMessageHandler * handler); /// Set the language for messages. void newLanguage(CoinMessages::Language language); /// Set the language for messages. inline void setLanguage(CoinMessages::Language language) {newLanguage(language);} /// Return the message handler inline CoinMessageHandler * messageHandler() const {return handler_;} /// Return the messages inline CoinMessages messages() {return messages_;} /// Return the messages pointer inline CoinMessages * messagesPointer() {return & messages_;} //@} /**@name Methods to release storage These methods allow the client to reduce the storage used by the CoinMpsIO object be selectively releasing unneeded problem information. */ //@{ /** Release all information which can be re-calculated. E.g., row sense, copies of rows, hash tables for names. */ void releaseRedundantInformation(); /// Release all row information (lower, upper) void releaseRowInformation(); /// Release all column information (lower, upper, objective) void releaseColumnInformation(); /// Release integer information void releaseIntegerInformation(); /// Release row names void releaseRowNames(); /// Release column names void releaseColumnNames(); /// Release matrix information void releaseMatrixInformation(); //@} protected: /**@name Miscellaneous helper functions */ //@{ /// Utility method used several times to implement public methods void setMpsDataWithoutRowAndColNames( const CoinPackedMatrix& m, const double infinity, const double* collb, const double* colub, const double* obj, const char* integrality, const double* rowlb, const double* rowub); void setMpsDataColAndRowNames( const std::vector & colnames, const std::vector & rownames); void setMpsDataColAndRowNames( char const * const * const colnames, char const * const * const rownames); /// Does the heavy lifting for destruct and assignment. void gutsOfDestructor(); /// Does the heavy lifting for copy and assignment. void gutsOfCopy(const CoinMpsIO &); /// Clears problem data from the CoinMpsIO object. void freeAll(); /** A quick inlined function to convert from lb/ub style constraint definition to sense/rhs/range style */ inline void convertBoundToSense(const double lower, const double upper, char& sense, double& right, double& range) const; /** A quick inlined function to convert from sense/rhs/range stryle constraint definition to lb/ub style */ inline void convertSenseToBound(const char sense, const double right, const double range, double& lower, double& upper) const; /** Deal with a filename As the name says. Returns +1 if the file name is new, 0 if it's the same as before (i.e., matches fileName_), and -1 if there's an error and the file can't be opened. Handles automatic append of .gz suffix when compiled with libz. \todo Add automatic append of .bz2 suffix when compiled with libbz. */ int dealWithFileName(const char * filename, const char * extension, CoinFileInput * &input); /** Add string to list iRow==numberRows is objective, nr+1 is lo, nr+2 is up iColumn==nc is rhs (can't cope with ranges at present) */ void addString(int iRow,int iColumn, const char * value); /// Decode string void decodeString(int iString, int & iRow, int & iColumn, const char * & value) const; //@} // for hashing typedef struct { int index, next; } CoinHashLink; /**@name Hash table methods */ //@{ /// Creates hash list for names (section = 0 for rows, 1 columns) void startHash ( char **names, const int number , int section ); /// This one does it when names are already in void startHash ( int section ) const; /// Deletes hash storage void stopHash ( int section ); /// Finds match using hash, -1 not found int findHash ( const char *name , int section ) const; //@} /**@name Cached problem information */ //@{ /// Problem name char * problemName_; /// Objective row name char * objectiveName_; /// Right-hand side vector name char * rhsName_; /// Range vector name char * rangeName_; /// Bounds vector name char * boundName_; /// Number of rows int numberRows_; /// Number of columns int numberColumns_; /// Number of coefficients CoinBigIndex numberElements_; /// Pointer to dense vector of row sense indicators mutable char *rowsense_; /// Pointer to dense vector of row right-hand side values mutable double *rhs_; /** Pointer to dense vector of slack variable upper bounds for range constraints (undefined for non-range rows) */ mutable double *rowrange_; /// Pointer to row-wise copy of problem matrix coefficients. mutable CoinPackedMatrix *matrixByRow_; /// Pointer to column-wise copy of problem matrix coefficients. CoinPackedMatrix *matrixByColumn_; /// Pointer to dense vector of row lower bounds double * rowlower_; /// Pointer to dense vector of row upper bounds double * rowupper_; /// Pointer to dense vector of column lower bounds double * collower_; /// Pointer to dense vector of column upper bounds double * colupper_; /// Pointer to dense vector of objective coefficients double * objective_; /// Constant offset for objective value (i.e., RHS value for OBJ row) double objectiveOffset_; /** Pointer to dense vector specifying if a variable is continuous (0) or integer (1). */ char * integerType_; /** Row and column names Linked to hash table sections (0 - row names, 1 column names) */ char **names_[2]; //@} /** @name Hash tables */ //@{ /// Current file name char * fileName_; /// Number of entries in a hash table section int numberHash_[2]; /// Hash tables (two sections, 0 - row names, 1 - column names) mutable CoinHashLink *hash_[2]; //@} /** @name CoinMpsIO object parameters */ //@{ /// Upper bound when no bounds for integers int defaultBound_; /// Value to use for infinity double infinity_; /// Small element value double smallElement_; /// Message handler CoinMessageHandler * handler_; /** Flag to say if the message handler is the default handler. If true, the handler will be destroyed when the CoinMpsIO object is destroyed; if false, it will not be destroyed. */ bool defaultHandler_; /// Messages CoinMessages messages_; /// Card reader CoinMpsCardReader * cardReader_; /// If .gms file should it be massaged to move objective bool convertObjective_; /// Whether to allow string elements int allowStringElements_; /// Maximum number of string elements int maximumStringElements_; /// Number of string elements int numberStringElements_; /// String elements char ** stringElements_; //@} }; //############################################################################# /** A function that tests the methods in the CoinMpsIO class. The only reason for it not to be a member method is that this way it doesn't have to be compiled into the library. And that's a gain, because the library should be compiled with optimization on, but this method should be compiled with debugging. Also, if this method is compiled with optimization, the compilation takes 10-15 minutes and the machine pages (has 256M core memory!)... */ void CoinMpsIOUnitTest(const std::string & mpsDir); // Function to return number in most efficient way // section is 0 for columns, 1 for rhs,ranges and 2 for bounds /* formatType is 0 - normal and 8 character names 1 - extra accuracy 2 - IEEE hex - INTEL 3 - IEEE hex - not INTEL */ void CoinConvertDouble(int section, int formatType, double value, char outputValue[24]); #endif