src/work/athos/lp/lp_solver_glpk.h
changeset 1312 48f9299b390d
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     1 // -*- c++ -*-
       
     2 #ifndef LEMON_LP_SOLVER_GLPK_H
       
     3 #define LEMON_LP_SOLVER_GLPK_H
       
     4 
       
     5 ///\ingroup misc
       
     6 ///\file
       
     7 
       
     8 extern "C" {
       
     9 #include "glpk.h"
       
    10 }
       
    11 #include <lp_solver_base.h>
       
    12 
       
    13 namespace lemon {
       
    14   
       
    15   
       
    16   template <typename Value>
       
    17   const Value LpSolverBase<Value>::INF=std::numeric_limits<Value>::infinity();
       
    18 
       
    19 
       
    20   /// \brief Wrapper for GLPK solver
       
    21   /// 
       
    22   /// This class implements a lemon wrapper for GLPK.
       
    23   class LpGlpk : public LpSolverBase<double> {
       
    24 
       
    25   public:
       
    26 
       
    27     typedef LpSolverBase<double> Parent;
       
    28     
       
    29     /// \e
       
    30     LPX* lp;
       
    31 
       
    32     /// \e
       
    33     LpGlpk() : Parent(), 
       
    34 			lp(lpx_create_prob()) {
       
    35       //int_row_map.push_back(Row());
       
    36       //int_col_map.push_back(Col());
       
    37       lpx_set_int_parm(lp, LPX_K_DUAL, 1);
       
    38     }
       
    39     /// \e
       
    40     ~LpGlpk() {
       
    41       lpx_delete_prob(lp);
       
    42     }
       
    43 
       
    44     //MATRIX INDEPEDENT MANIPULATING FUNCTIONS
       
    45 
       
    46     /// \e
       
    47     void setMinimize() { 
       
    48       lpx_set_obj_dir(lp, LPX_MIN);
       
    49     }
       
    50     /// \e
       
    51     void setMaximize() { 
       
    52       lpx_set_obj_dir(lp, LPX_MAX);
       
    53     }
       
    54 
       
    55     /// \e
       
    56     /// Retrieve number of rows
       
    57     int rowNum() const { return lpx_get_num_rows(lp); }
       
    58     /// \e
       
    59     /// Retrieve number of coloumns
       
    60     int colNum() const { return lpx_get_num_cols(lp); }
       
    61 
       
    62   protected:
       
    63     /// \e
       
    64     int LpGlpk::_addCol() { 
       
    65       int i=lpx_add_cols(lp, 1);
       
    66       _setColLowerBound(i, -INF);
       
    67       _setColUpperBound(i, INF);
       
    68       return i;
       
    69     }
       
    70     /// \e
       
    71     int LpGlpk::_addRow() { 
       
    72       int i=lpx_add_rows(lp, 1);
       
    73       return i;
       
    74     }
       
    75     /// \e
       
    76     virtual void _setRowCoeffs(int i, 
       
    77 			       const std::vector<std::pair<int, double> >& coeffs) {
       
    78       int mem_length=1+colNum();
       
    79       int* indices = new int[mem_length];
       
    80       double* doubles = new double[mem_length];
       
    81       int length=0;
       
    82       for (std::vector<std::pair<int, double> >::
       
    83 	     const_iterator it=coeffs.begin(); it!=coeffs.end(); ++it) {
       
    84 	++length;
       
    85 	indices[length]=it->first;
       
    86 	doubles[length]=it->second;
       
    87       }
       
    88       lpx_set_mat_row(lp, i, length, indices, doubles);
       
    89       delete [] indices;
       
    90       delete [] doubles;
       
    91     }
       
    92     /// \e
       
    93     virtual void _getRowCoeffs(int i, 
       
    94 			       std::vector<std::pair<int, double> >& coeffs) {
       
    95       int mem_length=1+colNum();
       
    96       int* indices = new int[mem_length];
       
    97       double* doubles = new double[mem_length];
       
    98       int length=lpx_get_mat_row(lp, i, indices, doubles);
       
    99       for (int i=1; i<=length; ++i) {
       
   100 	coeffs.push_back(std::make_pair(indices[i], doubles[i]));
       
   101       }
       
   102       delete [] indices;
       
   103       delete [] doubles;
       
   104     }
       
   105     /// \e
       
   106     virtual void _setColCoeffs(int i, 
       
   107 			       const std::vector<std::pair<int, double> >& coeffs) {
       
   108       int mem_length=1+rowNum();
       
   109       int* indices = new int[mem_length];
       
   110       double* doubles = new double[mem_length];
       
   111       int length=0;
       
   112       for (std::vector<std::pair<int, double> >::
       
   113 	     const_iterator it=coeffs.begin(); it!=coeffs.end(); ++it) {
       
   114 	++length;
       
   115 	indices[length]=it->first;
       
   116 	doubles[length]=it->second;
       
   117       }
       
   118       lpx_set_mat_col(lp, i, length, indices, doubles);
       
   119       delete [] indices;
       
   120       delete [] doubles;
       
   121     }
       
   122     /// \e
       
   123     virtual void _getColCoeffs(int i, 
       
   124 			       std::vector<std::pair<int, double> >& coeffs) {
       
   125       int mem_length=1+rowNum();
       
   126       int* indices = new int[mem_length];
       
   127       double* doubles = new double[mem_length];
       
   128       int length=lpx_get_mat_col(lp, i, indices, doubles);
       
   129       for (int i=1; i<=length; ++i) {
       
   130 	coeffs.push_back(std::make_pair(indices[i], doubles[i]));
       
   131       }
       
   132       delete [] indices;
       
   133       delete [] doubles;
       
   134     }
       
   135     /// \e
       
   136     virtual void _eraseCol(int i) {
       
   137       int cols[2];
       
   138       cols[1]=i;
       
   139       lpx_del_cols(lp, 1, cols);
       
   140     }
       
   141     virtual void _eraseRow(int i) {
       
   142       int rows[2];
       
   143       rows[1]=i;
       
   144       lpx_del_rows(lp, 1, rows);
       
   145     }
       
   146 
       
   147     void _setCoeff(int row, int col, double value) {
       
   148       ///FIXME Of course this is not efficient at all, but GLPK knows not more.
       
   149       /// First approach: get one row, apply changes and set it again
       
   150 
       
   151       int mem_length=1+colNum();
       
   152       int* indices = new int[mem_length];
       
   153       double* doubles = new double[mem_length];
       
   154 
       
   155 
       
   156       int length=lpx_get_mat_row(lp, i, indices, doubles);
       
   157 
       
   158       //The following code does not suppose that the elements of the array indices are sorted
       
   159       int i=1;
       
   160       bool found=false;
       
   161       while (i <= length && !found){
       
   162 	if (indices[i]=col){
       
   163 	  found = true;
       
   164 	  doubles[i]=value;
       
   165 	}
       
   166 	++i;
       
   167       }
       
   168       if (!found){
       
   169 	++length;
       
   170 	indices[length]=col;
       
   171 	doubles[length]=value;
       
   172       }
       
   173 
       
   174 // This is a piece of code that assumes that the array 'indices' is sorted. 
       
   175 // Not ready, I suppose. 
       
   176 //       //We need another arrays to put the data back, anyway
       
   177 //       int* new_indices = new int[length+1];
       
   178 //       double* new_doubles = new double[length+1];
       
   179 //       int offset;
       
   180 
       
   181 //       int i=1;
       
   182 //       while (i <= length && indices[i]<col){
       
   183 // 	new_indiced[i]=indices[i];
       
   184 // 	new_doubles[i]=doubles[i];
       
   185 // 	++i;
       
   186 //       }
       
   187 //       if (i>length || indices[i]>col){
       
   188 // 	//Ha atugrottuk, vagy a vegen van
       
   189 // 	new_indices[i]=col;
       
   190 // 	new_doubles[i]=value;
       
   191 // 	offset = 1;
       
   192 //       }
       
   193 //       else{
       
   194 // 	//I.e.: indices[i]=col
       
   195 // 	new_doubles[i]=value;
       
   196 // 	offset = 0;
       
   197 // 	++i;
       
   198 //       }
       
   199 //       while (i <= length){
       
   200 // 	new_indices[i+offset]=indices[i];
       
   201 // 	new_values[i+offset]=values[i];
       
   202 //       }
       
   203 
       
   204       lpx_set_mat_row(lp, row, length, indices, doubles);
       
   205       delete [] indices;
       
   206       delete [] doubles;
       
   207 
       
   208 //       lpx_set_mat_row(lp, row, length+offset, new_indices, new_doubles);
       
   209 //       delete [] new_indices;
       
   210 //       delete [] new_doubles;
       
   211       
       
   212 
       
   213     }
       
   214     double _getCoeff(int col, int row) {
       
   215       /// FIXME not yet implemented
       
   216       return 0.0;
       
   217     }
       
   218     virtual void _setColLowerBound(int i, double lo) {
       
   219       if (lo==INF) {
       
   220 	//FIXME error
       
   221       }
       
   222       int b=lpx_get_col_type(lp, i);
       
   223       double up=lpx_get_col_ub(lp, i);	
       
   224       if (lo==-INF) {
       
   225 	switch (b) {
       
   226 	case LPX_FR:
       
   227 	case LPX_LO:
       
   228 	  lpx_set_col_bnds(lp, i, LPX_FR, lo, up);
       
   229 	  break;
       
   230 	case LPX_UP:
       
   231 	  break;
       
   232 	case LPX_DB:
       
   233 	case LPX_FX:
       
   234 	  lpx_set_col_bnds(lp, i, LPX_UP, lo, up);
       
   235 	  break;
       
   236 	default: ;
       
   237 	  //FIXME error
       
   238 	}
       
   239       } else {
       
   240 	switch (b) {
       
   241 	case LPX_FR:
       
   242 	case LPX_LO:
       
   243 	  lpx_set_col_bnds(lp, i, LPX_LO, lo, up);
       
   244 	  break;
       
   245 	case LPX_UP:	  
       
   246 	case LPX_DB:
       
   247 	case LPX_FX:
       
   248 	  if (lo==up) 
       
   249 	    lpx_set_col_bnds(lp, i, LPX_FX, lo, up);
       
   250 	  else 
       
   251 	    lpx_set_col_bnds(lp, i, LPX_DB, lo, up);
       
   252 	  break;
       
   253 	default: ;
       
   254 	  //FIXME error
       
   255 	}
       
   256       }
       
   257     }
       
   258     virtual double _getColLowerBound(int i) {
       
   259       int b=lpx_get_col_type(lp, i);
       
   260       switch (b) {
       
   261       case LPX_FR:
       
   262 	return -INF;
       
   263       case LPX_LO:
       
   264 	return lpx_get_col_lb(lp, i);
       
   265       case LPX_UP:
       
   266 	return -INF;
       
   267       case LPX_DB:
       
   268       case LPX_FX:
       
   269 	return lpx_get_col_lb(lp, i);
       
   270       default: ;
       
   271 	//FIXME error
       
   272 	return 0.0;
       
   273       }
       
   274     }
       
   275     virtual void _setColUpperBound(int i, double up) {
       
   276       if (up==-INF) {
       
   277 	//FIXME error
       
   278       }
       
   279       int b=lpx_get_col_type(lp, i);
       
   280       double lo=lpx_get_col_lb(lp, i);
       
   281       if (up==INF) {
       
   282 	switch (b) {
       
   283 	case LPX_FR:
       
   284 	case LPX_LO:
       
   285 	  break;
       
   286 	case LPX_UP:
       
   287 	  lpx_set_col_bnds(lp, i, LPX_FR, lo, up);
       
   288 	  break;
       
   289 	case LPX_DB:
       
   290 	case LPX_FX:
       
   291 	  lpx_set_col_bnds(lp, i, LPX_LO, lo, up);
       
   292 	  break;
       
   293 	default: ;
       
   294 	  //FIXME error
       
   295 	}
       
   296       } else {
       
   297 	switch (b) {
       
   298 	case LPX_FR:
       
   299 	  lpx_set_col_bnds(lp, i, LPX_UP, lo, up);
       
   300 	case LPX_LO:
       
   301 	  if (lo==up) 
       
   302 	    lpx_set_col_bnds(lp, i, LPX_FX, lo, up);
       
   303 	  else
       
   304 	    lpx_set_col_bnds(lp, i, LPX_DB, lo, up);
       
   305 	  break;
       
   306 	case LPX_UP:
       
   307 	  lpx_set_col_bnds(lp, i, LPX_UP, lo, up);
       
   308 	  break;
       
   309 	case LPX_DB:
       
   310 	case LPX_FX:
       
   311 	  if (lo==up) 
       
   312 	    lpx_set_col_bnds(lp, i, LPX_FX, lo, up);
       
   313 	  else 
       
   314 	    lpx_set_col_bnds(lp, i, LPX_DB, lo, up);
       
   315 	  break;
       
   316 	default: ;
       
   317 	  //FIXME error
       
   318 	}
       
   319       }
       
   320     }
       
   321     virtual double _getColUpperBound(int i) {
       
   322       int b=lpx_get_col_type(lp, i);
       
   323       switch (b) {
       
   324       case LPX_FR:
       
   325       case LPX_LO:
       
   326 	return INF;
       
   327       case LPX_UP:
       
   328       case LPX_DB:
       
   329       case LPX_FX:
       
   330 	return lpx_get_col_ub(lp, i);
       
   331       default: ;
       
   332 	//FIXME error
       
   333 	return 0.0;
       
   334       }
       
   335     }
       
   336     virtual void _setRowLowerBound(int i, double lo) {
       
   337       if (lo==INF) {
       
   338 	//FIXME error
       
   339       }
       
   340       int b=lpx_get_row_type(lp, i);
       
   341       double up=lpx_get_row_ub(lp, i);	
       
   342       if (lo==-INF) {
       
   343 	switch (b) {
       
   344 	case LPX_FR:
       
   345 	case LPX_LO:
       
   346 	  lpx_set_row_bnds(lp, i, LPX_FR, lo, up);
       
   347 	  break;
       
   348 	case LPX_UP:
       
   349 	  break;
       
   350 	case LPX_DB:
       
   351 	case LPX_FX:
       
   352 	  lpx_set_row_bnds(lp, i, LPX_UP, lo, up);
       
   353 	  break;
       
   354 	default: ;
       
   355 	  //FIXME error
       
   356 	}
       
   357       } else {
       
   358 	switch (b) {
       
   359 	case LPX_FR:
       
   360 	case LPX_LO:
       
   361 	  lpx_set_row_bnds(lp, i, LPX_LO, lo, up);
       
   362 	  break;
       
   363 	case LPX_UP:	  
       
   364 	case LPX_DB:
       
   365 	case LPX_FX:
       
   366 	  if (lo==up) 
       
   367 	    lpx_set_row_bnds(lp, i, LPX_FX, lo, up);
       
   368 	  else 
       
   369 	    lpx_set_row_bnds(lp, i, LPX_DB, lo, up);
       
   370 	  break;
       
   371 	default: ;
       
   372 	  //FIXME error
       
   373 	}
       
   374       }
       
   375     }
       
   376     virtual double _getRowLowerBound(int i) {
       
   377       int b=lpx_get_row_type(lp, i);
       
   378       switch (b) {
       
   379       case LPX_FR:
       
   380 	return -INF;
       
   381       case LPX_LO:
       
   382 	return lpx_get_row_lb(lp, i);
       
   383       case LPX_UP:
       
   384 	return -INF;
       
   385       case LPX_DB:
       
   386       case LPX_FX:
       
   387 	return lpx_get_row_lb(lp, i);
       
   388       default: ;
       
   389 	//FIXME error
       
   390 	return 0.0;
       
   391       }
       
   392     }
       
   393     virtual void _setRowUpperBound(int i, double up) {
       
   394       if (up==-INF) {
       
   395 	//FIXME error
       
   396       }
       
   397       int b=lpx_get_row_type(lp, i);
       
   398       double lo=lpx_get_row_lb(lp, i);
       
   399       if (up==INF) {
       
   400 	switch (b) {
       
   401 	case LPX_FR:
       
   402 	case LPX_LO:
       
   403 	  break;
       
   404 	case LPX_UP:
       
   405 	  lpx_set_row_bnds(lp, i, LPX_FR, lo, up);
       
   406 	  break;
       
   407 	case LPX_DB:
       
   408 	case LPX_FX:
       
   409 	  lpx_set_row_bnds(lp, i, LPX_LO, lo, up);
       
   410 	  break;
       
   411 	default: ;
       
   412 	  //FIXME error
       
   413 	}
       
   414       } else {
       
   415 	switch (b) {
       
   416 	case LPX_FR:
       
   417 	  lpx_set_row_bnds(lp, i, LPX_UP, lo, up);
       
   418 	case LPX_LO:
       
   419 	  if (lo==up) 
       
   420 	    lpx_set_row_bnds(lp, i, LPX_FX, lo, up);
       
   421 	  else
       
   422 	    lpx_set_row_bnds(lp, i, LPX_DB, lo, up);
       
   423 	  break;
       
   424 	case LPX_UP:
       
   425 	  lpx_set_row_bnds(lp, i, LPX_UP, lo, up);
       
   426 	  break;
       
   427 	case LPX_DB:
       
   428 	case LPX_FX:
       
   429 	  if (lo==up) 
       
   430 	    lpx_set_row_bnds(lp, i, LPX_FX, lo, up);
       
   431 	  else 
       
   432 	    lpx_set_row_bnds(lp, i, LPX_DB, lo, up);
       
   433 	  break;
       
   434 	default: ;
       
   435 	  //FIXME error
       
   436 	}
       
   437       }
       
   438     }
       
   439     virtual double _getRowUpperBound(int i) {
       
   440       int b=lpx_get_row_type(lp, i);
       
   441       switch (b) {
       
   442       case LPX_FR:
       
   443       case LPX_LO:
       
   444 	return INF;
       
   445       case LPX_UP:
       
   446       case LPX_DB:
       
   447       case LPX_FX:
       
   448 	return lpx_get_row_ub(lp, i);
       
   449       default: ;
       
   450 	//FIXME error
       
   451 	return 0.0;
       
   452       }
       
   453     }
       
   454     /// \e
       
   455     virtual double _getObjCoeff(int i) { 
       
   456       return lpx_get_obj_coef(lp, i);
       
   457     }
       
   458     /// \e
       
   459     virtual void _setObjCoeff(int i, double obj_coef) { 
       
   460       lpx_set_obj_coef(lp, i, obj_coef);
       
   461     }
       
   462 
       
   463   protected:
       
   464     virtual double _getPrimal(int i) {
       
   465       return lpx_get_col_prim(lp, i);
       
   466     }
       
   467 
       
   468     //MIP
       
   469   protected:
       
   470     /// \e
       
   471     void _setColCont(int i) { lpx_set_col_kind(lp, i, LPX_CV); }
       
   472     /// \e
       
   473     void _setColInt(int i) { lpx_set_col_kind(lp, i, LPX_IV); }
       
   474     /// \e
       
   475     double _getMIPPrimal(int i) { return lpx_mip_col_val(lp, i); }
       
   476 
       
   477 
       
   478 //   public:
       
   479 //     /// \e
       
   480 //     void solveSimplex() { lpx_simplex(lp); }
       
   481 //     /// \e
       
   482 //     void solvePrimalSimplex() { lpx_simplex(lp); }
       
   483 //     /// \e
       
   484 //     void solveDualSimplex() { lpx_simplex(lp); }
       
   485 //     /// \e
       
   486 //     double getObjVal() { return lpx_get_obj_val(lp); }
       
   487 //     /// \e
       
   488 //     int warmUp() { return lpx_warm_up(lp); }
       
   489 //     /// \e
       
   490 //     void printWarmUpStatus(int i) {
       
   491 //       switch (i) {
       
   492 //       case LPX_E_OK: cout << "LPX_E_OK" << endl; break;
       
   493 //       case LPX_E_EMPTY: cout << "LPX_E_EMPTY" << endl; break;	
       
   494 //       case LPX_E_BADB: cout << "LPX_E_BADB" << endl; break;
       
   495 //       case LPX_E_SING: cout << "LPX_E_SING" << endl; break;
       
   496 //       }
       
   497 //     }
       
   498 //     /// \e
       
   499 //     int getPrimalStatus() { return lpx_get_prim_stat(lp); }
       
   500 //     /// \e
       
   501 //     void printPrimalStatus(int i) {
       
   502 //       switch (i) {
       
   503 //       case LPX_P_UNDEF: cout << "LPX_P_UNDEF" << endl; break;
       
   504 //       case LPX_P_FEAS: cout << "LPX_P_FEAS" << endl; break;	
       
   505 //       case LPX_P_INFEAS: cout << "LPX_P_INFEAS" << endl; break;
       
   506 //       case LPX_P_NOFEAS: cout << "LPX_P_NOFEAS" << endl; break;
       
   507 //       }
       
   508 //     }
       
   509 //     /// \e
       
   510 //     int getDualStatus() { return lpx_get_dual_stat(lp); }
       
   511 //     /// \e
       
   512 //     void printDualStatus(int i) {
       
   513 //       switch (i) {
       
   514 //       case LPX_D_UNDEF: cout << "LPX_D_UNDEF" << endl; break;
       
   515 //       case LPX_D_FEAS: cout << "LPX_D_FEAS" << endl; break;	
       
   516 //       case LPX_D_INFEAS: cout << "LPX_D_INFEAS" << endl; break;
       
   517 //       case LPX_D_NOFEAS: cout << "LPX_D_NOFEAS" << endl; break;
       
   518 //       }
       
   519 //     }
       
   520 //     /// Returns the status of the slack variable assigned to row \c row.
       
   521 //     int getRowStat(const Row& row) { 
       
   522 //       return lpx_get_row_stat(lp, row_iter_map[row]); 
       
   523 //     }
       
   524 //     /// \e
       
   525 //     void printRowStatus(int i) {
       
   526 //       switch (i) {
       
   527 //       case LPX_BS: cout << "LPX_BS" << endl; break;
       
   528 //       case LPX_NL: cout << "LPX_NL" << endl; break;	
       
   529 //       case LPX_NU: cout << "LPX_NU" << endl; break;
       
   530 //       case LPX_NF: cout << "LPX_NF" << endl; break;
       
   531 //       case LPX_NS: cout << "LPX_NS" << endl; break;
       
   532 //       }
       
   533 //     }
       
   534 //     /// Returns the status of the variable assigned to column \c col.
       
   535 //     int getColStat(const Col& col) { 
       
   536 //       return lpx_get_col_stat(lp, col_iter_map[col]); 
       
   537 //     }
       
   538 //     /// \e
       
   539 //     void printColStatus(int i) {
       
   540 //       switch (i) {
       
   541 //       case LPX_BS: cout << "LPX_BS" << endl; break;
       
   542 //       case LPX_NL: cout << "LPX_NL" << endl; break;	
       
   543 //       case LPX_NU: cout << "LPX_NU" << endl; break;
       
   544 //       case LPX_NF: cout << "LPX_NF" << endl; break;
       
   545 //       case LPX_NS: cout << "LPX_NS" << endl; break;
       
   546 //       }
       
   547 //     }
       
   548 
       
   549 //     // MIP
       
   550 //     /// \e
       
   551 //     void solveBandB() { lpx_integer(lp); }
       
   552 //     /// \e
       
   553 //     void setLP() { lpx_set_class(lp, LPX_LP); }
       
   554 //     /// \e
       
   555 //     void setMIP() { lpx_set_class(lp, LPX_MIP); }
       
   556 
       
   557 
       
   558 
       
   559   };
       
   560   
       
   561   /// @}
       
   562 
       
   563 } //namespace lemon
       
   564 
       
   565 #endif //LEMON_LP_SOLVER_GLPK_H