examples/queens.mod
author Alpar Juttner <alpar@cs.elte.hu>
Mon, 06 Dec 2010 13:09:21 +0100
changeset 1 c445c931472f
permissions -rw-r--r--
Import glpk-4.45

- Generated files and doc/notes are removed
     1 /* QUEENS, a classic combinatorial optimization problem */
     2 
     3 /* Written in GNU MathProg by Andrew Makhorin <mao@gnu.org> */
     4 
     5 /* The Queens Problem is to place as many queens as possible on the 8x8
     6    (or more generally, nxn) chess board in a way that they do not fight
     7    each other. This problem is probably as old as the chess game itself,
     8    and thus its origin is not known, but it is known that Gauss studied
     9    this problem. */
    10 
    11 param n, integer, > 0, default 8;
    12 /* size of the chess board */
    13 
    14 var x{1..n, 1..n}, binary;
    15 /* x[i,j] = 1 means that a queen is placed in square [i,j] */
    16 
    17 s.t. a{i in 1..n}: sum{j in 1..n} x[i,j] <= 1;
    18 /* at most one queen can be placed in each row */
    19 
    20 s.t. b{j in 1..n}: sum{i in 1..n} x[i,j] <= 1;
    21 /* at most one queen can be placed in each column */
    22 
    23 s.t. c{k in 2-n..n-2}: sum{i in 1..n, j in 1..n: i-j == k} x[i,j] <= 1;
    24 /* at most one queen can be placed in each "\"-diagonal */
    25 
    26 s.t. d{k in 3..n+n-1}: sum{i in 1..n, j in 1..n: i+j == k} x[i,j] <= 1;
    27 /* at most one queen can be placed in each "/"-diagonal */
    28 
    29 maximize obj: sum{i in 1..n, j in 1..n} x[i,j];
    30 /* objective is to place as many queens as possible */
    31 
    32 /* solve the problem */
    33 solve;
    34 
    35 /* and print its optimal solution */
    36 for {i in 1..n}
    37 {  for {j in 1..n} printf " %s", if x[i,j] then "Q" else ".";
    38    printf("\n");
    39 }
    40 
    41 end;