src/work/marci/lp/magic_square.cc
changeset 1174 5dccf1916ed8
child 1176 1ba2b4c0c970
equal deleted inserted replaced
-1:000000000000 0:7c8529c78385
       
     1 // -*- c++ -*-
       
     2 #include <iostream>
       
     3 #include <fstream>
       
     4 
       
     5 #include <lemon/time_measure.h>
       
     6 #include <lp_solver_base.h>
       
     7 
       
     8 using std::cout;
       
     9 using std::endl;
       
    10 using namespace lemon;
       
    11 
       
    12 /*
       
    13   for n=3,4 , the program is very fast
       
    14   for n=5, with glpk, the run takes hours
       
    15  */
       
    16 
       
    17 int main(int, char **) {
       
    18   const int n=4;
       
    19   const double row_sum=(1.0+n*n)*n/2;
       
    20   Timer ts;
       
    21   ts.reset();
       
    22   typedef LPGLPK LPSolver;
       
    23   typedef LPSolver::Col Col;
       
    24   LPSolver lp;
       
    25   typedef std::map<std::pair<int, int>, Col> Coords;
       
    26   Coords x;
       
    27   // we create a new variable for each entry 
       
    28   // of the magic square
       
    29   for (int i=1; i<=n; ++i) {
       
    30     for (int j=1; j<=n; ++j) { 
       
    31       Col col=lp.addCol();
       
    32       x[std::make_pair(i,j)]=col;
       
    33       lp.setColLowerBound(col, 1.0);
       
    34       lp.setColUpperBound(col, double(n*n));
       
    35     }
       
    36   }
       
    37   LPSolver::Expression expr3, expr4;
       
    38   for (int i=1; i<=n; ++i) {
       
    39     LPSolver::Expression expr1, expr2;
       
    40     for (int j=1; j<=n; ++j) {
       
    41       expr1+=x[std::make_pair(i, j)];
       
    42       expr2+=x[std::make_pair(j, i)];
       
    43     }
       
    44     // sum of rows and columns
       
    45     lp.addRow(expr1==row_sum);
       
    46     lp.addRow(expr2==row_sum);
       
    47     expr3+=x[std::make_pair(i, i)];
       
    48     expr4+=x[std::make_pair(i, (n+1)-i)];
       
    49   }
       
    50   // sum of the diagonal entries
       
    51   lp.addRow(expr3==row_sum);
       
    52   lp.addRow(expr4==row_sum);
       
    53   lp.solveSimplex();
       
    54   cout << "elapsed time: " << ts << endl;
       
    55   for (int i=1; i<=n; ++i) {
       
    56     for (int j=1; j<=n; ++j) { 
       
    57       cout << "x("<<i<<","<<j<<")="<<lp.getPrimal(x[std::make_pair(i,j)]) 
       
    58 	   << endl;
       
    59     }
       
    60   }
       
    61   // we make new binary variables for each pair of 
       
    62   // entries of the square to achieve that 
       
    63   // the values of different entries are different
       
    64   lp.setMIP();
       
    65   for (Coords::const_iterator it=x.begin(); it!=x.end(); ++it) {
       
    66     Coords::const_iterator jt=it; ++jt;
       
    67     for(; jt!=x.end(); ++jt) {
       
    68       Col col1=(*it).second;
       
    69       Col col2=(*jt).second;
       
    70       Col col=lp.addCol();
       
    71       lp.setColLowerBound(col, 0.0);
       
    72       lp.setColUpperBound(col, 1.0);
       
    73       lp.addRow(double(-n*n+1.0)<=1.0*col2-1.0*col1-double(n*n)*col<=-1.0);
       
    74       lp.setColInt(col);
       
    75     }
       
    76   }
       
    77   cout << "elapsed time: " << ts << endl;
       
    78   lp.solveSimplex();
       
    79   // let's solve the integer problem
       
    80   lp.solveBandB();
       
    81   cout << "elapsed time: " << ts << endl;
       
    82   for (int i=1; i<=n; ++i) {
       
    83     for (int j=1; j<=n; ++j) { 
       
    84       cout << "x("<<i<<","<<j<<")="<<lp.getMIPPrimal(x[std::make_pair(i,j)]) 
       
    85 	   << endl;
       
    86     }
       
    87   }
       
    88 }