marci@1031: // -*- c++ -*- marci@1152: #ifndef LEMON_LP_SOLVER_BASE_H marci@1152: #define LEMON_LP_SOLVER_BASE_H marci@1031: marci@1031: ///\ingroup misc marci@1031: ///\file marci@1031: marci@1031: // #include marci@1031: #include marci@1097: #include marci@1097: #include marci@1104: #include marci@1031: // #include marci@1031: //#include marci@1031: extern "C" { marci@1031: #include "glpk.h" marci@1031: } marci@1031: marci@1031: #include marci@1031: #include marci@1031: #include marci@1031: #include marci@1031: #include marci@1031: #include marci@1031: marci@1031: #include marci@1099: #include marci@1031: //#include marci@1031: //#include marci@1031: //#include marci@1031: //#include marci@1031: marci@1031: using std::cout; marci@1031: using std::cin; marci@1031: using std::endl; marci@1031: marci@1031: namespace lemon { marci@1031: marci@1031: /// \addtogroup misc marci@1031: /// @{ marci@1031: marci@1031: /// \brief A partitioned vector with iterable classes. marci@1031: /// marci@1031: /// This class implements a container in which the data is stored in an marci@1031: /// stl vector, the range is partitioned into sets and each set is marci@1031: /// doubly linked in a list. marci@1031: /// That is, each class is iterable by lemon iterators, and any member of marci@1031: /// the vector can bo moved to an other class. marci@1031: template marci@1031: class IterablePartition { marci@1031: protected: marci@1031: struct Node { marci@1031: T data; marci@1031: int prev; //invalid az -1 marci@1031: int next; marci@1031: }; marci@1031: std::vector nodes; marci@1031: struct Tip { marci@1031: int first; marci@1031: int last; marci@1031: }; marci@1031: std::vector tips; marci@1031: public: marci@1031: /// The classes are indexed by integers from \c 0 to \c classNum()-1. marci@1031: int classNum() const { return tips.size(); } marci@1031: /// This lemon style iterator iterates through a class. marci@1152: class Class; marci@1031: /// Constructor. The number of classes is to be given which is fixed marci@1031: /// over the life of the container. marci@1031: /// The partition classes are indexed from 0 to class_num-1. marci@1031: IterablePartition(int class_num) { marci@1031: for (int i=0; inext(*this); marci@1152: return *this; marci@1152: } marci@1152: }; marci@1152: marci@1031: }; marci@1031: marci@1097: marci@1031: /*! \e marci@1143: \todo kellenene uj iterable structure bele, mert ez nem az igazi marci@1111: \todo A[x,y]-t cserel. Jobboldal, baloldal csere. marci@1111: \todo LEKERDEZESEK!!! marci@1111: \todo DOKSI!!!! Doxygen group!!! marci@1111: The aim of this class is to give a general surface to different marci@1111: solvers, i.e. it makes possible to write algorithms using LP's, marci@1111: in which the solver can be changed to an other one easily. marci@1112: \nosubgrouping marci@1111: */ marci@1048: template marci@1031: class LPSolverBase { marci@1112: marci@1113: /*! @name Uncategorized functions and types (public members) marci@1112: */ marci@1112: //@{ marci@1031: public: marci@1112: marci@1112: //UNCATEGORIZED marci@1112: marci@1031: /// \e marci@1152: typedef IterablePartition Rows; marci@1152: /// \e marci@1152: typedef IterablePartition Cols; marci@1152: /// \e marci@1048: typedef _Value Value; marci@1048: /// \e marci@1152: typedef Rows::Class Row; marci@1031: /// \e marci@1152: typedef Cols::Class Col; marci@1074: public: marci@1031: /// \e marci@1031: IterablePartition row_iter_map; marci@1031: /// \e marci@1031: IterablePartition col_iter_map; marci@1031: /// \e marci@1144: std::vector int_row_map; marci@1143: /// \e marci@1144: std::vector int_col_map; marci@1143: /// \e marci@1074: const int VALID_CLASS; marci@1031: /// \e marci@1074: const int INVALID_CLASS; marci@1104: /// \e marci@1104: static const _Value INF; marci@1031: public: marci@1031: /// \e marci@1031: LPSolverBase() : row_iter_map(2), marci@1031: col_iter_map(2), marci@1074: VALID_CLASS(0), INVALID_CLASS(1) { } marci@1031: /// \e marci@1031: virtual ~LPSolverBase() { } marci@1112: //@} marci@1081: marci@1112: /*! @name Medium level interface (public members) marci@1112: These functions appear in the low level and also in the high level marci@1112: interfaces thus these each of these functions have to be implemented marci@1112: only once in the different interfaces. marci@1112: This means that these functions have to be reimplemented for all of the marci@1112: different lp solvers. These are basic functions, and have the same marci@1112: parameter lists in the low and high level interfaces. marci@1112: */ marci@1112: //@{ marci@1112: public: marci@1081: marci@1112: //UNCATEGORIZED FUNCTIONS marci@1112: marci@1031: /// \e marci@1031: virtual void setMinimize() = 0; marci@1031: /// \e marci@1031: virtual void setMaximize() = 0; marci@1081: marci@1112: //SOLVER FUNCTIONS marci@1081: marci@1112: /// \e marci@1112: virtual void solveSimplex() = 0; marci@1112: /// \e marci@1112: virtual void solvePrimalSimplex() = 0; marci@1112: /// \e marci@1112: virtual void solveDualSimplex() = 0; marci@1112: marci@1112: //SOLUTION RETRIEVING marci@1112: marci@1112: /// \e marci@1112: virtual _Value getObjVal() = 0; marci@1112: marci@1112: //OTHER FUNCTIONS marci@1112: marci@1112: /// \e marci@1112: virtual int rowNum() const = 0; marci@1112: /// \e marci@1112: virtual int colNum() const = 0; marci@1112: /// \e marci@1112: virtual int warmUp() = 0; marci@1112: /// \e marci@1112: virtual void printWarmUpStatus(int i) = 0; marci@1112: /// \e marci@1112: virtual int getPrimalStatus() = 0; marci@1112: /// \e marci@1112: virtual void printPrimalStatus(int i) = 0; marci@1112: /// \e marci@1112: virtual int getDualStatus() = 0; marci@1112: /// \e marci@1112: virtual void printDualStatus(int i) = 0; marci@1144: /// Returns the status of the slack variable assigned to row \c row. marci@1144: virtual int getRowStat(const Row& row) = 0; marci@1112: /// \e marci@1112: virtual void printRowStatus(int i) = 0; marci@1144: /// Returns the status of the variable assigned to column \c col. marci@1144: virtual int getColStat(const Col& col) = 0; marci@1112: /// \e marci@1112: virtual void printColStatus(int i) = 0; marci@1112: marci@1112: //@} marci@1112: marci@1112: /*! @name Low level interface (protected members) marci@1112: Problem manipulating functions in the low level interface marci@1112: */ marci@1112: //@{ marci@1074: protected: marci@1112: marci@1112: //MATRIX MANIPULATING FUNCTIONS marci@1112: marci@1031: /// \e marci@1111: virtual int _addCol() = 0; marci@1111: /// \e marci@1074: virtual int _addRow() = 0; marci@1031: /// \e marci@1111: virtual void _eraseCol(int i) = 0; marci@1111: /// \e marci@1111: virtual void _eraseRow(int i) = 0; marci@1081: /// \e marci@1081: virtual void _setRowCoeffs(int i, marci@1104: const std::vector >& coeffs) = 0; marci@1081: /// \e marci@1143: /// This routine modifies \c coeffs only by the \c push_back method. marci@1143: virtual void _getRowCoeffs(int i, marci@1143: std::vector >& coeffs) = 0; marci@1152: /// \e marci@1081: virtual void _setColCoeffs(int i, marci@1104: const std::vector >& coeffs) = 0; marci@1143: /// \e marci@1143: /// This routine modifies \c coeffs only by the \c push_back method. marci@1143: virtual void _getColCoeffs(int i, marci@1143: std::vector >& coeffs) = 0; marci@1081: /// \e marci@1152: virtual void _setCoeff(int col, int row, _Value value) = 0; marci@1152: /// \e marci@1152: virtual _Value _getCoeff(int col, int row) = 0; marci@1152: // public: marci@1152: // /// \e marci@1152: // enum Bound { FREE, LOWER, UPPER, DOUBLE, FIXED }; marci@1081: protected: marci@1081: /// \e marci@1110: /// The lower bound of a variable (column) have to be given by an marci@1110: /// extended number of type _Value, i.e. a finite number of type marci@1110: /// _Value or -INF. marci@1110: virtual void _setColLowerBound(int i, _Value value) = 0; marci@1110: /// \e marci@1111: /// The lower bound of a variable (column) is an marci@1111: /// extended number of type _Value, i.e. a finite number of type marci@1111: /// _Value or -INF. marci@1111: virtual _Value _getColLowerBound(int i) = 0; marci@1111: /// \e marci@1110: /// The upper bound of a variable (column) have to be given by an marci@1110: /// extended number of type _Value, i.e. a finite number of type marci@1110: /// _Value or INF. marci@1110: virtual void _setColUpperBound(int i, _Value value) = 0; marci@1110: /// \e marci@1110: /// The upper bound of a variable (column) is an marci@1110: /// extended number of type _Value, i.e. a finite number of type marci@1110: /// _Value or INF. marci@1110: virtual _Value _getColUpperBound(int i) = 0; marci@1110: /// \e marci@1111: /// The lower bound of a linear expression (row) have to be given by an marci@1111: /// extended number of type _Value, i.e. a finite number of type marci@1111: /// _Value or -INF. marci@1111: virtual void _setRowLowerBound(int i, _Value value) = 0; marci@1081: /// \e marci@1111: /// The lower bound of a linear expression (row) is an marci@1111: /// extended number of type _Value, i.e. a finite number of type marci@1111: /// _Value or -INF. marci@1111: virtual _Value _getRowLowerBound(int i) = 0; marci@1111: /// \e marci@1111: /// The upper bound of a linear expression (row) have to be given by an marci@1111: /// extended number of type _Value, i.e. a finite number of type marci@1111: /// _Value or INF. marci@1111: virtual void _setRowUpperBound(int i, _Value value) = 0; marci@1111: /// \e marci@1111: /// The upper bound of a linear expression (row) is an marci@1111: /// extended number of type _Value, i.e. a finite number of type marci@1111: /// _Value or INF. marci@1111: virtual _Value _getRowUpperBound(int i) = 0; marci@1081: /// \e marci@1152: virtual void _setObjCoeff(int i, _Value obj_coef) = 0; marci@1081: /// \e marci@1152: virtual _Value _getObjCoeff(int i) = 0; marci@1112: marci@1112: //SOLUTION RETRIEVING marci@1081: marci@1111: /// \e marci@1081: virtual _Value _getPrimal(int i) = 0; marci@1112: //@} marci@1112: marci@1112: /*! @name High level interface (public members) marci@1112: Problem manipulating functions in the high level interface marci@1112: */ marci@1112: //@{ marci@1112: public: marci@1081: marci@1112: //MATRIX MANIPULATING FUNCTIONS marci@1081: marci@1074: /// \e marci@1144: Col addCol() { marci@1074: int i=_addCol(); marci@1144: Col col; marci@1144: col_iter_map.first(col, INVALID_CLASS); marci@1144: if (col_iter_map.valid(col)) { //van hasznalhato hely marci@1144: col_iter_map.set(col, INVALID_CLASS, VALID_CLASS); marci@1144: col_iter_map[col]=i; marci@1074: } else { //a cucc vegere kell inzertalni mert nincs szabad hely marci@1144: col=col_iter_map.push_back(i, VALID_CLASS); marci@1074: } marci@1144: int_col_map.push_back(col); marci@1144: return col; marci@1074: } marci@1074: /// \e marci@1144: Row addRow() { marci@1111: int i=_addRow(); marci@1144: Row row; marci@1144: row_iter_map.first(row, INVALID_CLASS); marci@1144: if (row_iter_map.valid(row)) { //van hasznalhato hely marci@1144: row_iter_map.set(row, INVALID_CLASS, VALID_CLASS); marci@1144: row_iter_map[row]=i; marci@1111: } else { //a cucc vegere kell inzertalni mert nincs szabad hely marci@1144: row=row_iter_map.push_back(i, VALID_CLASS); marci@1031: } marci@1144: int_row_map.push_back(row); marci@1144: return row; marci@1074: } marci@1074: /// \e marci@1144: void eraseCol(const Col& col) { marci@1144: col_iter_map.set(col, VALID_CLASS, INVALID_CLASS); marci@1074: int cols[2]; marci@1144: cols[1]=col_iter_map[col]; marci@1074: _eraseCol(cols[1]); marci@1144: col_iter_map[col]=0; //glpk specifikus, de kell ez?? marci@1144: Col it; marci@1074: for (col_iter_map.first(it, VALID_CLASS); marci@1074: col_iter_map.valid(it); col_iter_map.next(it)) { marci@1074: if (col_iter_map[it]>cols[1]) --col_iter_map[it]; marci@1074: } marci@1143: int_col_map.erase(int_col_map.begin()+cols[1]); marci@1031: } marci@1031: /// \e marci@1144: void eraseRow(const Row& row) { marci@1144: row_iter_map.set(row, VALID_CLASS, INVALID_CLASS); marci@1074: int rows[2]; marci@1144: rows[1]=row_iter_map[row]; marci@1074: _eraseRow(rows[1]); marci@1144: row_iter_map[row]=0; //glpk specifikus, de kell ez?? marci@1144: Row it; marci@1074: for (row_iter_map.first(it, VALID_CLASS); marci@1074: row_iter_map.valid(it); row_iter_map.next(it)) { marci@1074: if (row_iter_map[it]>rows[1]) --row_iter_map[it]; marci@1074: } marci@1143: int_row_map.erase(int_row_map.begin()+rows[1]); marci@1074: } marci@1031: /// \e marci@1152: void setCoeff(Col col, Row row, _Value value) { marci@1152: _setCoeff(col_iter_map[col], row_iter_map[row], value); marci@1152: } marci@1152: /// \e marci@1152: _Value getCoeff(Col col, Row row) { marci@1152: return _getCoeff(col_iter_map[col], row_iter_map[row], value); marci@1152: } marci@1152: /// \e marci@1144: void setColLowerBound(Col col, _Value lo) { marci@1144: _setColLowerBound(col_iter_map[col], lo); marci@1111: } marci@1111: /// \e marci@1144: _Value getColLowerBound(Col col) { marci@1144: return _getColLowerBound(col_iter_map[col]); marci@1111: } marci@1111: /// \e marci@1144: void setColUpperBound(Col col, _Value up) { marci@1144: _setColUpperBound(col_iter_map[col], up); marci@1110: } marci@1110: /// \e marci@1144: _Value getColUpperBound(Col col) { marci@1144: return _getColUpperBound(col_iter_map[col]); marci@1111: } marci@1111: /// \e marci@1144: void setRowLowerBound(Row row, _Value lo) { marci@1144: _setRowLowerBound(row_iter_map[row], lo); marci@1110: } marci@1110: /// \e marci@1144: _Value getRowLowerBound(Row row) { marci@1144: return _getRowLowerBound(row_iter_map[row]); marci@1110: } marci@1110: /// \e marci@1144: void setRowUpperBound(Row row, _Value up) { marci@1144: _setRowUpperBound(row_iter_map[row], up); marci@1081: } marci@1031: /// \e marci@1144: _Value getRowUpperBound(Row row) { marci@1144: return _getRowUpperBound(row_iter_map[row]); marci@1111: } marci@1111: /// \e marci@1152: void setObjCoeff(const Col& col, _Value obj_coef) { marci@1152: _setObjCoeff(col_iter_map[col], obj_coef); marci@1111: } marci@1111: /// \e marci@1152: _Value getObjCoeff(const Col& col) { marci@1152: return _getObjCoeff(col_iter_map[col]); marci@1081: } marci@1081: marci@1112: //SOLUTION RETRIEVING FUNCTIONS marci@1112: marci@1112: /// \e marci@1144: _Value getPrimal(const Col& col) { marci@1144: return _getPrimal(col_iter_map[col]); marci@1112: } marci@1112: marci@1112: //@} marci@1112: marci@1112: /*! @name User friend interface marci@1112: Problem manipulating functions in the user friend interface marci@1112: */ marci@1112: //@{ marci@1112: marci@1112: //EXPRESSION TYPES marci@1099: marci@1099: /// \e marci@1144: typedef Expr Expression; marci@1099: /// \e marci@1144: typedef Expr DualExpression; marci@1144: /// \e marci@1144: typedef Constr Constraint; marci@1112: marci@1112: //MATRIX MANIPULATING FUNCTIONS marci@1112: marci@1099: /// \e marci@1144: void setRowCoeffs(Row row, const Expression& expr) { marci@1099: std::vector > row_coeffs; marci@1099: for(typename Expression::Data::const_iterator i=expr.data.begin(); marci@1099: i!=expr.data.end(); ++i) { marci@1099: row_coeffs.push_back(std::make_pair marci@1099: (col_iter_map[(*i).first], (*i).second)); marci@1099: } marci@1144: _setRowCoeffs(row_iter_map[row], row_coeffs); marci@1144: } marci@1144: /// \e marci@1144: void setRow(Row row, const Constraint& constr) { marci@1144: setRowCoeffs(row, constr.expr); marci@1144: setRowLowerBound(row, constr.lo); marci@1144: setRowUpperBound(row, constr.up); marci@1144: } marci@1144: /// \e marci@1144: Row addRow(const Constraint& constr) { marci@1144: Row row=addRow(); marci@1144: setRowCoeffs(row, constr.expr); marci@1144: setRowLowerBound(row, constr.lo); marci@1144: setRowUpperBound(row, constr.up); marci@1144: return row; marci@1099: } marci@1099: /// \e marci@1143: /// This routine modifies \c expr by only adding to it. marci@1144: void getRowCoeffs(Row row, Expression& expr) { marci@1143: std::vector > row_coeffs; marci@1144: _getRowCoeffs(row_iter_map[row], row_coeffs); marci@1143: for(typename std::vector >::const_iterator marci@1143: i=row_coeffs.begin(); i!=row_coeffs.end(); ++i) { marci@1143: expr+= (*i).second*int_col_map[(*i).first]; marci@1143: } marci@1143: } marci@1143: /// \e marci@1144: void setColCoeffs(Col col, const DualExpression& expr) { marci@1099: std::vector > col_coeffs; marci@1099: for(typename DualExpression::Data::const_iterator i=expr.data.begin(); marci@1099: i!=expr.data.end(); ++i) { marci@1099: col_coeffs.push_back(std::make_pair marci@1099: (row_iter_map[(*i).first], (*i).second)); marci@1099: } marci@1144: _setColCoeffs(col_iter_map[col], col_coeffs); marci@1099: } marci@1099: /// \e marci@1143: /// This routine modifies \c expr by only adding to it. marci@1144: void getColCoeffs(Col col, DualExpression& expr) { marci@1143: std::vector > col_coeffs; marci@1144: _getColCoeffs(col_iter_map[col], col_coeffs); marci@1143: for(typename std::vector >::const_iterator marci@1143: i=col_coeffs.begin(); i!=col_coeffs.end(); ++i) { marci@1143: expr+= (*i).second*int_row_map[(*i).first]; marci@1143: } marci@1143: } marci@1143: /// \e marci@1099: void setObjCoeffs(const Expression& expr) { marci@1152: // writing zero everywhere marci@1152: for(Cols::ClassIt it(col_iter_map, VALID_CLASS); it!=INVALID; ++it) marci@1152: setObjCoeff(it, 0.0); marci@1152: // writing the data needed marci@1099: for(typename Expression::Data::const_iterator i=expr.data.begin(); marci@1099: i!=expr.data.end(); ++i) { marci@1152: setObjCoeff((*i).first, (*i).second); marci@1099: } marci@1099: } marci@1143: /// \e marci@1143: /// This routine modifies \c expr by only adding to it. marci@1143: void getObjCoeffs(Expression& expr) { marci@1152: for(Cols::ClassIt it(col_iter_map, VALID_CLASS); it!=INVALID; ++it) marci@1152: expr+=getObjCoeff(it)*it; marci@1152: } marci@1152: //@} marci@1152: marci@1152: marci@1152: /*! @name MIP functions and types (public members) marci@1152: */ marci@1152: //@{ marci@1152: public: marci@1152: /// \e marci@1152: virtual void solveBandB() = 0; marci@1152: /// \e marci@1152: virtual void setLP() = 0; marci@1152: /// \e marci@1152: virtual void setMIP() = 0; marci@1152: protected: marci@1152: /// \e marci@1152: virtual void _setColCont(int i) = 0; marci@1152: /// \e marci@1152: virtual void _setColInt(int i) = 0; marci@1153: /// \e marci@1153: virtual _Value _getMIPPrimal(int i) = 0; marci@1152: public: marci@1152: /// \e marci@1152: void setColCont(Col col) { marci@1152: _setColCont(col_iter_map[col]); marci@1152: } marci@1152: /// \e marci@1152: void setColInt(Col col) { marci@1152: _setColInt(col_iter_map[col]); marci@1143: } marci@1153: /// \e marci@1153: _Value getMIPPrimal(Col col) { marci@1153: return _getMIPPrimal(col_iter_map[col]); marci@1153: } marci@1112: //@} marci@1031: }; marci@1031: marci@1104: template marci@1104: const _Value LPSolverBase<_Value>::INF=std::numeric_limits<_Value>::infinity(); marci@1104: marci@1048: marci@1111: /// \brief Wrapper for GLPK solver marci@1031: /// marci@1111: /// This class implements a lemon wrapper for GLPK. marci@1081: class LPGLPK : public LPSolverBase { marci@1031: public: marci@1048: typedef LPSolverBase Parent; marci@1031: marci@1031: public: marci@1031: /// \e marci@1031: LPX* lp; marci@1031: marci@1031: public: marci@1031: /// \e marci@1081: LPGLPK() : Parent(), marci@1031: lp(lpx_create_prob()) { marci@1144: int_row_map.push_back(Row()); marci@1144: int_col_map.push_back(Col()); marci@1031: lpx_set_int_parm(lp, LPX_K_DUAL, 1); marci@1031: } marci@1031: /// \e marci@1081: ~LPGLPK() { marci@1031: lpx_delete_prob(lp); marci@1031: } marci@1081: marci@1081: //MATRIX INDEPEDENT MANIPULATING FUNCTIONS marci@1081: marci@1031: /// \e marci@1031: void setMinimize() { marci@1031: lpx_set_obj_dir(lp, LPX_MIN); marci@1031: } marci@1031: /// \e marci@1031: void setMaximize() { marci@1031: lpx_set_obj_dir(lp, LPX_MAX); marci@1031: } marci@1081: marci@1081: //LOW LEVEL INTERFACE, MATRIX MANIPULATING FUNCTIONS marci@1081: marci@1074: protected: marci@1031: /// \e marci@1074: int _addCol() { marci@1110: int i=lpx_add_cols(lp, 1); marci@1110: _setColLowerBound(i, -INF); marci@1110: _setColUpperBound(i, INF); marci@1110: return i; marci@1031: } marci@1031: /// \e marci@1074: int _addRow() { marci@1110: int i=lpx_add_rows(lp, 1); marci@1110: return i; marci@1074: } marci@1074: /// \e marci@1081: virtual void _setRowCoeffs(int i, marci@1104: const std::vector >& coeffs) { marci@1074: int mem_length=1+colNum(); marci@1074: int* indices = new int[mem_length]; marci@1074: double* doubles = new double[mem_length]; marci@1074: int length=0; marci@1074: for (std::vector >:: marci@1074: const_iterator it=coeffs.begin(); it!=coeffs.end(); ++it) { marci@1074: ++length; marci@1074: indices[length]=it->first; marci@1074: doubles[length]=it->second; marci@1031: } marci@1074: lpx_set_mat_row(lp, i, length, indices, doubles); marci@1074: delete [] indices; marci@1074: delete [] doubles; marci@1031: } marci@1074: /// \e marci@1143: virtual void _getRowCoeffs(int i, marci@1143: std::vector >& coeffs) { marci@1143: int mem_length=1+colNum(); marci@1143: int* indices = new int[mem_length]; marci@1143: double* doubles = new double[mem_length]; marci@1143: int length=lpx_get_mat_row(lp, i, indices, doubles); marci@1143: for (int i=1; i<=length; ++i) { marci@1143: coeffs.push_back(std::make_pair(indices[i], doubles[i])); marci@1143: } marci@1143: delete [] indices; marci@1143: delete [] doubles; marci@1143: } marci@1143: /// \e marci@1081: virtual void _setColCoeffs(int i, marci@1104: const std::vector >& coeffs) { marci@1074: int mem_length=1+rowNum(); marci@1074: int* indices = new int[mem_length]; marci@1074: double* doubles = new double[mem_length]; marci@1074: int length=0; marci@1074: for (std::vector >:: marci@1074: const_iterator it=coeffs.begin(); it!=coeffs.end(); ++it) { marci@1074: ++length; marci@1074: indices[length]=it->first; marci@1074: doubles[length]=it->second; marci@1074: } marci@1074: lpx_set_mat_col(lp, i, length, indices, doubles); marci@1074: delete [] indices; marci@1074: delete [] doubles; marci@1031: } marci@1031: /// \e marci@1143: virtual void _getColCoeffs(int i, marci@1143: std::vector >& coeffs) { marci@1143: int mem_length=1+rowNum(); marci@1143: int* indices = new int[mem_length]; marci@1143: double* doubles = new double[mem_length]; marci@1143: int length=lpx_get_mat_col(lp, i, indices, doubles); marci@1143: for (int i=1; i<=length; ++i) { marci@1143: coeffs.push_back(std::make_pair(indices[i], doubles[i])); marci@1143: } marci@1143: delete [] indices; marci@1143: delete [] doubles; marci@1143: } marci@1143: /// \e marci@1074: virtual void _eraseCol(int i) { marci@1031: int cols[2]; marci@1074: cols[1]=i; marci@1031: lpx_del_cols(lp, 1, cols); marci@1031: } marci@1074: virtual void _eraseRow(int i) { marci@1031: int rows[2]; marci@1074: rows[1]=i; marci@1031: lpx_del_rows(lp, 1, rows); marci@1031: } marci@1152: void _setCoeff(int col, int row, double value) { marci@1152: /// FIXME not yet implemented marci@1152: } marci@1152: double _getCoeff(int col, int row) { marci@1152: /// FIXME not yet implemented marci@1152: return 0.0; marci@1152: } marci@1110: virtual void _setColLowerBound(int i, double lo) { marci@1110: if (lo==INF) { marci@1110: //FIXME error marci@1110: } marci@1110: int b=lpx_get_col_type(lp, i); marci@1110: double up=lpx_get_col_ub(lp, i); marci@1110: if (lo==-INF) { marci@1110: switch (b) { marci@1110: case LPX_FR: marci@1110: case LPX_LO: marci@1110: lpx_set_col_bnds(lp, i, LPX_FR, lo, up); marci@1110: break; marci@1110: case LPX_UP: marci@1110: break; marci@1110: case LPX_DB: marci@1110: case LPX_FX: marci@1110: lpx_set_col_bnds(lp, i, LPX_UP, lo, up); marci@1110: break; marci@1110: default: ; marci@1110: //FIXME error marci@1110: } marci@1110: } else { marci@1110: switch (b) { marci@1110: case LPX_FR: marci@1110: case LPX_LO: marci@1110: lpx_set_col_bnds(lp, i, LPX_LO, lo, up); marci@1110: break; marci@1110: case LPX_UP: marci@1110: case LPX_DB: marci@1110: case LPX_FX: marci@1110: if (lo==up) marci@1110: lpx_set_col_bnds(lp, i, LPX_FX, lo, up); marci@1110: else marci@1110: lpx_set_col_bnds(lp, i, LPX_DB, lo, up); marci@1110: break; marci@1110: default: ; marci@1110: //FIXME error marci@1110: } marci@1110: } marci@1110: } marci@1111: virtual double _getColLowerBound(int i) { marci@1111: int b=lpx_get_col_type(lp, i); marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: return -INF; marci@1111: case LPX_LO: marci@1111: return lpx_get_col_lb(lp, i); marci@1111: case LPX_UP: marci@1111: return -INF; marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: return lpx_get_col_lb(lp, i); marci@1111: default: ; marci@1111: //FIXME error marci@1111: return 0.0; marci@1111: } marci@1111: } marci@1110: virtual void _setColUpperBound(int i, double up) { marci@1110: if (up==-INF) { marci@1110: //FIXME error marci@1110: } marci@1110: int b=lpx_get_col_type(lp, i); marci@1110: double lo=lpx_get_col_lb(lp, i); marci@1110: if (up==INF) { marci@1110: switch (b) { marci@1110: case LPX_FR: marci@1110: case LPX_LO: marci@1110: break; marci@1110: case LPX_UP: marci@1110: lpx_set_col_bnds(lp, i, LPX_FR, lo, up); marci@1110: break; marci@1110: case LPX_DB: marci@1110: case LPX_FX: marci@1110: lpx_set_col_bnds(lp, i, LPX_LO, lo, up); marci@1110: break; marci@1110: default: ; marci@1110: //FIXME error marci@1110: } marci@1110: } else { marci@1110: switch (b) { marci@1110: case LPX_FR: marci@1110: lpx_set_col_bnds(lp, i, LPX_UP, lo, up); marci@1110: case LPX_LO: marci@1110: if (lo==up) marci@1110: lpx_set_col_bnds(lp, i, LPX_FX, lo, up); marci@1110: else marci@1110: lpx_set_col_bnds(lp, i, LPX_DB, lo, up); marci@1110: break; marci@1110: case LPX_UP: marci@1110: lpx_set_col_bnds(lp, i, LPX_UP, lo, up); marci@1110: break; marci@1110: case LPX_DB: marci@1110: case LPX_FX: marci@1110: if (lo==up) marci@1110: lpx_set_col_bnds(lp, i, LPX_FX, lo, up); marci@1110: else marci@1110: lpx_set_col_bnds(lp, i, LPX_DB, lo, up); marci@1110: break; marci@1110: default: ; marci@1110: //FIXME error marci@1110: } marci@1110: } marci@1110: } marci@1110: virtual double _getColUpperBound(int i) { marci@1110: int b=lpx_get_col_type(lp, i); marci@1110: switch (b) { marci@1110: case LPX_FR: marci@1110: case LPX_LO: marci@1110: return INF; marci@1110: case LPX_UP: marci@1110: case LPX_DB: marci@1110: case LPX_FX: marci@1110: return lpx_get_col_ub(lp, i); marci@1110: default: ; marci@1110: //FIXME error marci@1110: return 0.0; marci@1110: } marci@1110: } marci@1111: virtual void _setRowLowerBound(int i, double lo) { marci@1111: if (lo==INF) { marci@1111: //FIXME error marci@1081: } marci@1111: int b=lpx_get_row_type(lp, i); marci@1111: double up=lpx_get_row_ub(lp, i); marci@1111: if (lo==-INF) { marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: case LPX_LO: marci@1111: lpx_set_row_bnds(lp, i, LPX_FR, lo, up); marci@1111: break; marci@1111: case LPX_UP: marci@1111: break; marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: lpx_set_row_bnds(lp, i, LPX_UP, lo, up); marci@1111: break; marci@1111: default: ; marci@1111: //FIXME error marci@1111: } marci@1111: } else { marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: case LPX_LO: marci@1111: lpx_set_row_bnds(lp, i, LPX_LO, lo, up); marci@1111: break; marci@1111: case LPX_UP: marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: if (lo==up) marci@1111: lpx_set_row_bnds(lp, i, LPX_FX, lo, up); marci@1111: else marci@1111: lpx_set_row_bnds(lp, i, LPX_DB, lo, up); marci@1111: break; marci@1111: default: ; marci@1111: //FIXME error marci@1111: } marci@1081: } marci@1111: } marci@1111: virtual double _getRowLowerBound(int i) { marci@1111: int b=lpx_get_row_type(lp, i); marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: return -INF; marci@1111: case LPX_LO: marci@1111: return lpx_get_row_lb(lp, i); marci@1111: case LPX_UP: marci@1111: return -INF; marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: return lpx_get_row_lb(lp, i); marci@1111: default: ; marci@1111: //FIXME error marci@1111: return 0.0; marci@1111: } marci@1111: } marci@1111: virtual void _setRowUpperBound(int i, double up) { marci@1111: if (up==-INF) { marci@1111: //FIXME error marci@1111: } marci@1111: int b=lpx_get_row_type(lp, i); marci@1111: double lo=lpx_get_row_lb(lp, i); marci@1111: if (up==INF) { marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: case LPX_LO: marci@1111: break; marci@1111: case LPX_UP: marci@1111: lpx_set_row_bnds(lp, i, LPX_FR, lo, up); marci@1111: break; marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: lpx_set_row_bnds(lp, i, LPX_LO, lo, up); marci@1111: break; marci@1111: default: ; marci@1111: //FIXME error marci@1111: } marci@1111: } else { marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: lpx_set_row_bnds(lp, i, LPX_UP, lo, up); marci@1111: case LPX_LO: marci@1111: if (lo==up) marci@1111: lpx_set_row_bnds(lp, i, LPX_FX, lo, up); marci@1111: else marci@1111: lpx_set_row_bnds(lp, i, LPX_DB, lo, up); marci@1111: break; marci@1111: case LPX_UP: marci@1111: lpx_set_row_bnds(lp, i, LPX_UP, lo, up); marci@1111: break; marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: if (lo==up) marci@1111: lpx_set_row_bnds(lp, i, LPX_FX, lo, up); marci@1111: else marci@1111: lpx_set_row_bnds(lp, i, LPX_DB, lo, up); marci@1111: break; marci@1111: default: ; marci@1111: //FIXME error marci@1111: } marci@1111: } marci@1111: } marci@1111: virtual double _getRowUpperBound(int i) { marci@1111: int b=lpx_get_row_type(lp, i); marci@1111: switch (b) { marci@1111: case LPX_FR: marci@1111: case LPX_LO: marci@1111: return INF; marci@1111: case LPX_UP: marci@1111: case LPX_DB: marci@1111: case LPX_FX: marci@1111: return lpx_get_row_ub(lp, i); marci@1111: default: ; marci@1111: //FIXME error marci@1111: return 0.0; marci@1111: } marci@1111: } marci@1031: /// \e marci@1152: virtual double _getObjCoeff(int i) { marci@1081: return lpx_get_obj_coef(lp, i); marci@1031: } marci@1031: /// \e marci@1152: virtual void _setObjCoeff(int i, double obj_coef) { marci@1081: lpx_set_obj_coef(lp, i, obj_coef); marci@1031: } marci@1081: public: marci@1031: /// \e marci@1031: void solveSimplex() { lpx_simplex(lp); } marci@1031: /// \e marci@1031: void solvePrimalSimplex() { lpx_simplex(lp); } marci@1031: /// \e marci@1031: void solveDualSimplex() { lpx_simplex(lp); } marci@1081: protected: marci@1081: virtual double _getPrimal(int i) { marci@1081: return lpx_get_col_prim(lp, i); marci@1031: } marci@1081: public: marci@1031: /// \e marci@1031: double getObjVal() { return lpx_get_obj_val(lp); } marci@1031: /// \e marci@1031: int rowNum() const { return lpx_get_num_rows(lp); } marci@1031: /// \e marci@1031: int colNum() const { return lpx_get_num_cols(lp); } marci@1031: /// \e marci@1031: int warmUp() { return lpx_warm_up(lp); } marci@1031: /// \e marci@1031: void printWarmUpStatus(int i) { marci@1031: switch (i) { marci@1031: case LPX_E_OK: cout << "LPX_E_OK" << endl; break; marci@1031: case LPX_E_EMPTY: cout << "LPX_E_EMPTY" << endl; break; marci@1031: case LPX_E_BADB: cout << "LPX_E_BADB" << endl; break; marci@1031: case LPX_E_SING: cout << "LPX_E_SING" << endl; break; marci@1031: } marci@1031: } marci@1031: /// \e marci@1031: int getPrimalStatus() { return lpx_get_prim_stat(lp); } marci@1031: /// \e marci@1031: void printPrimalStatus(int i) { marci@1031: switch (i) { marci@1031: case LPX_P_UNDEF: cout << "LPX_P_UNDEF" << endl; break; marci@1031: case LPX_P_FEAS: cout << "LPX_P_FEAS" << endl; break; marci@1031: case LPX_P_INFEAS: cout << "LPX_P_INFEAS" << endl; break; marci@1031: case LPX_P_NOFEAS: cout << "LPX_P_NOFEAS" << endl; break; marci@1031: } marci@1031: } marci@1031: /// \e marci@1031: int getDualStatus() { return lpx_get_dual_stat(lp); } marci@1031: /// \e marci@1031: void printDualStatus(int i) { marci@1031: switch (i) { marci@1031: case LPX_D_UNDEF: cout << "LPX_D_UNDEF" << endl; break; marci@1031: case LPX_D_FEAS: cout << "LPX_D_FEAS" << endl; break; marci@1031: case LPX_D_INFEAS: cout << "LPX_D_INFEAS" << endl; break; marci@1031: case LPX_D_NOFEAS: cout << "LPX_D_NOFEAS" << endl; break; marci@1031: } marci@1031: } marci@1144: /// Returns the status of the slack variable assigned to row \c row. marci@1144: int getRowStat(const Row& row) { marci@1144: return lpx_get_row_stat(lp, row_iter_map[row]); marci@1031: } marci@1031: /// \e marci@1031: void printRowStatus(int i) { marci@1031: switch (i) { marci@1031: case LPX_BS: cout << "LPX_BS" << endl; break; marci@1031: case LPX_NL: cout << "LPX_NL" << endl; break; marci@1031: case LPX_NU: cout << "LPX_NU" << endl; break; marci@1031: case LPX_NF: cout << "LPX_NF" << endl; break; marci@1031: case LPX_NS: cout << "LPX_NS" << endl; break; marci@1031: } marci@1031: } marci@1144: /// Returns the status of the variable assigned to column \c col. marci@1144: int getColStat(const Col& col) { marci@1144: return lpx_get_col_stat(lp, col_iter_map[col]); marci@1031: } marci@1031: /// \e marci@1031: void printColStatus(int i) { marci@1031: switch (i) { marci@1031: case LPX_BS: cout << "LPX_BS" << endl; break; marci@1031: case LPX_NL: cout << "LPX_NL" << endl; break; marci@1031: case LPX_NU: cout << "LPX_NU" << endl; break; marci@1031: case LPX_NF: cout << "LPX_NF" << endl; break; marci@1031: case LPX_NS: cout << "LPX_NS" << endl; break; marci@1031: } marci@1031: } marci@1152: marci@1152: // MIP marci@1152: /// \e marci@1152: void solveBandB() { lpx_integer(lp); } marci@1152: /// \e marci@1152: void setLP() { lpx_set_class(lp, LPX_LP); } marci@1152: /// \e marci@1152: void setMIP() { lpx_set_class(lp, LPX_MIP); } marci@1152: protected: marci@1152: /// \e marci@1153: void _setColCont(int i) { lpx_set_col_kind(lp, i, LPX_CV); } marci@1152: /// \e marci@1153: void _setColInt(int i) { lpx_set_col_kind(lp, i, LPX_IV); } marci@1153: /// \e marci@1153: double _getMIPPrimal(int i) { return lpx_mip_col_val(lp, i); } marci@1031: }; marci@1031: marci@1031: /// @} marci@1031: marci@1031: } //namespace lemon marci@1031: marci@1152: #endif //LEMON_LP_SOLVER_BASE_H