Download
/*

  Crossfigure in Comet.

  CSPLib problem 21
  http://www.cs.st-andrews.ac.uk/~ianm/CSPLib/prob/prob021/index.html
  """
  Crossfigures are the numerical equivalent of crosswords. You have a grid and some 
  clues with numerical answers to place on this grid. Clues come in several different 
  forms (for example: Across 1. 25 across times two, 2. five dozen, 5. a square number, 
  10. prime, 14. 29 across times 21 down ...). 
  """
 
  Also, see 
  http://en.wikipedia.org/wiki/Cross-figure
  
  William Y. Sit: "On Crossnumber Puzzles and The Lucas-Bonaccio Farm 1998
  http://scisun.sci.ccny.cuny.edu/~wyscc/CrossNumber.pdf
  
  Bill Williams: Crossnumber Puzzle, The Little Pigley Farm
  http://jig.joelpomerantz.com/fun/dogsmead.html



  This Comet model was created by Hakan Kjellerstrand (hakank@gmail.com)
  Also, see my Comet page: http://www.hakank.org/comet 

 */

// Licenced under CC-BY-4.0 : http://creativecommons.org/licenses/by/4.0/

/*

  This model was inspired by the ECLiPSe model written by Warwick Harvey:
  http://www.cs.st-andrews.ac.uk/~ianm/CSPLib/prob/prob021/code.html
 
 
  Data from 
  http://thinks.com/crosswords/xfig.htm.
 
  This problem is 001 from http://thinks.com/crosswords/xfig.htm 
  ("X" is the blackbox and is fixed to the value of 0)
 
  1  2  3  4  5  6  7  8  9
  ---------------------------
  1  2  _  3  X  4  _  5  6    1
  7  _  X  8  _  _  X  9  _    2
  _  X  10 _  X  11 12 X  _    3
  13 14 _  _  X  15 _  16 _    4 
  X  _  X  X  X  X  X  _  X    5 
  17 _  18 19 X  20 21 _ 22    6
  _  X  23 _  X  24 _  X  _    7
  25 26 X  27 _  _  X  28 _    8
  29 _  _  _  X  30 _  _  _    9

 
  The answer is
   1608 9183
   60 201 42
   3 72 14 1
   5360 2866
    3     4
   4556 1156
   9 67 16 8
   68 804 48
   1008 7332

  Solutions:
  MiniZinc and Gecode/fz solves the problem in about 8 seconds.
  ECLiPSe/ic: 35 seconds
  MiniZinc/fdmip in 14 seconds.

  Comet: 1 second.

*/

import cotfd;

int t0 = System.getCPUTime();

int n = 9;

range D = 0..9999; // the max length of the numbers in this problem is 4

Solver<CP> m();

var<CP>{int} M[1..n, 1..n](m, 0..9);

var<CP>{int} A1(m, D);
var<CP>{int} A4(m, D);
var<CP>{int} A7(m, D);
var<CP>{int} A8(m, D);
var<CP>{int} A9(m, D);
var<CP>{int} A10(m, D);
var<CP>{int} A11(m, D);
var<CP>{int} A13(m, D);
var<CP>{int} A15(m, D);
var<CP>{int} A17(m, D);
var<CP>{int} A20(m, D);
var<CP>{int} A23(m, D);
var<CP>{int} A24(m, D);
var<CP>{int} A25(m, D);
var<CP>{int} A27(m, D);
var<CP>{int} A28(m, D);
var<CP>{int} A29(m, D);
var<CP>{int} A30(m, D);

var<CP>{int} D1(m, D);
var<CP>{int} D2(m, D);
var<CP>{int} D3(m, D);
var<CP>{int} D4(m, D);
var<CP>{int} D5(m, D);
var<CP>{int} D6(m, D);
var<CP>{int} D10(m, D);
var<CP>{int} D12(m, D);
var<CP>{int} D14(m, D);
var<CP>{int} D16(m, D);
var<CP>{int} D17(m, D);
var<CP>{int} D18(m, D);
var<CP>{int} D19(m, D);
var<CP>{int} D20(m, D);
var<CP>{int} D21(m, D);
var<CP>{int} D22(m, D);
var<CP>{int} D26(m, D);
var<CP>{int} D28(m, D);


//
// Convert array <-> number
//
function void toNum10(var<CP>{int}[] x, var<CP>{int} num) {
  Solver<CP> m = x[1].getSolver();

  int start = x.getLow();
  int end = x.getHigh();
  m.post(num == sum(i in start..end) 
         10^(end-i)*x[i]
         );
}


/*
 across(Matrix, Across, Len, Row, Col)
	Constrains 'Across' to be equal to the number represented by the
	'Len' digits starting at position (Row, Col) of the array 'Matrix'
	and proceeding across.
*/
function void across(var<CP>{int}[,] Matrix, var<CP>{int} Across, int Len, int Row, int Col) {

  Solver<CP> m = Matrix[1,1].getSolver();
  var<CP>{int} tmp[1..Len](m, 0..9999);

  toNum10(tmp, Across);
  forall(i in 0..Len-1) {
    m.post(Matrix[Row,Col+i] == tmp[i+1]);
  }
}

/*
 down(Matrix, Down, Len, Row, Col):
	Constrains 'Down' to be equal to the number represented by the
	'Len' digits starting at position (Row, Col) of the array 'Matrix'
	and proceeding down.
*/
function void down(var<CP>{int}[,] Matrix, var<CP>{int} Across, int Len, int Row, int Col) {

  Solver<CP> m = Matrix[1,1].getSolver();
  var<CP>{int} tmp[1..Len](m, 0..9999);

  toNum10(tmp, Across);
  forall(i in 0..Len-1) {
    m.post(Matrix[Row+i,Col] == tmp[i+1]);
  }
}

/*
 x is a prime (is not needed, since I found m.inside)
*/
function void is_prime(Solver<CP> m, var<CP>{int} x) {
  forall(i in 2..x.getMax() / 2)
    m.post(i != x => x % i > 0);
}

//
// x is a square (is not needed, since I found m.inside)
//
function void square(Solver<CP> m, var<CP>{int} x) {
  var<CP>{int} tmp(m, 0..x.getSize());
  m.post(x == tmp^2);
}



Integer num_solutions(0);

exploreall<m> {

   // Set up the constraints between the matrix elements and the
   // clue numbers.
   across(M, A1, 4, 1, 1); 
   across(M, A4, 4, 1, 6); 
   across(M, A7, 2, 2, 1); 
   across(M, A8, 3, 2, 4); 
   across(M, A9, 2, 2, 8); 
   across(M, A10, 2, 3, 3); 
   across(M, A11, 2, 3, 6); 
   across(M, A13, 4, 4, 1); 
   across(M, A15, 4, 4, 6); 
   across(M, A17, 4, 6, 1); 
   across(M, A20, 4, 6, 6); 
   across(M, A23, 2, 7, 3); 
   across(M, A24, 2, 7, 6); 
   across(M, A25, 2, 8, 1); 
   across(M, A27, 3, 8, 4); 
   across(M, A28, 2, 8, 8); 
   across(M, A29, 4, 9, 1); 
   across(M, A30, 4, 9, 6); 

   down(M, D1, 4, 1, 1); 
   down(M, D2, 2, 1, 2); 
   down(M, D3, 4, 1, 4); 
   down(M, D4, 4, 1, 6); 
   down(M, D5, 2, 1, 8); 
   down(M, D6, 4, 1, 9); 
   down(M, D10, 2, 3, 3); 
   down(M, D12, 2, 3, 7); 
   down(M, D14, 3, 4, 2); 
   down(M, D16, 3, 4, 8); 
   down(M, D17, 4, 6, 1); 
   down(M, D18, 2, 6, 3); 
   down(M, D19, 4, 6, 4); 
   down(M, D20, 4, 6, 6); 
   down(M, D21, 2, 6, 7); 
   down(M, D22, 4, 6, 9); 
   down(M, D26, 2, 8, 2); 
   down(M, D28, 2, 8, 8); 


   // Set up the clue constraints.
   //  Across
   //  1 27 across times two
   //  4 4 down plus seventy-one
   //  7 18 down plus four
   //  8 6 down divided by sixteen
   //  9 2 down minus eighteen
   // 10 Dozen in six gross
   // 11 5 down minus seventy
   // 13 26 down times 23 across
   // 15 6 down minus 350
   // 17 25 across times 23 across
   // 20 A square number
   // 23 A prime number
   // 24 A square number
   // 25 20 across divided by seventeen
   // 27 6 down divided by four
   // 28 Four dozen
   // 29 Seven gross
   // 30 22 down plus 450 

    m.post(A1 == 2 * A27);
    m.post(A4 == D4 + 71);
    m.post(A7 == D18 + 4);
    m.post(A8 == D6 / 16);
    m.post(A9 == D2 - 18);
    m.post(A10 == 6 * 144 / 12);
    m.post(A11 == D5 - 70);
    m.post(A13 == D26 * A23);
    m.post(A15 == D6 - 350);
    m.post(A17 == A25 * A23);
    square(m, A20);
    is_prime(m, A23);
    square(m, A24);
    m.post(A25 == A20 / 17);
    m.post(A27 == D6 / 4);
    m.post(A28 == 4 * 12);
    m.post(A29 == 7 * 144);
    m.post(A30 == D22 + 450);
  
   // Down
   //
   //  1 1 across plus twenty-seven
   //  2 Five dozen
   //  3 30 across plus 888
   //  4 Two times 17 across
   //  5 29 across divided by twelve
   //  6 28 across times 23 across
   // 10 10 across plus four
   // 12 Three times 24 across
   // 14 13 across divided by sixteen
   // 16 28 down times fifteen
   // 17 13 across minus 399
   // 18 29 across divided by eighteen
   // 19 22 down minus ninety-four
   // 20 20 across minus nine
   // 21 25 across minus fifty-two
   // 22 20 down times six
   // 26 Five times 24 across
   // 28 21 down plus twenty-seven 

    m.post(D1 == A1 + 27);
    m.post(D2 == 5 * 12);
    m.post(D3 == A30 + 888);
    m.post(D4 == 2 * A17);
    m.post(D5 == A29 / 12);
    m.post(D6 == A28 * A23);
    m.post(D10 == A10 + 4);
    m.post(D12 == A24 * 3);
    m.post(D14 == A13 / 16);
    m.post(D16 == 15 * D28);
    m.post(D17 == A13 - 399);
    m.post(D18 == A29 / 18);
    m.post(D19 == D22 - 94);
    m.post(D20 == A20 - 9);
    m.post(D21 == A25 - 52);
    m.post(D22 == 6 * D20);
    m.post(D26 == 5 * A24);
    m.post(D28 == D21 + 27);


    // Fix the black boxes
    m.post(M[1,5] == 0);
    m.post(M[2,3] == 0);
    m.post(M[2,7] == 0);
    m.post(M[3,2] == 0);
    m.post(M[3,5] == 0);
    m.post(M[3,8] == 0);
    m.post(M[4,5] == 0);
    m.post(M[5,1] == 0);
    m.post(M[5,3] == 0);
    m.post(M[5,4] == 0);
    m.post(M[5,5] == 0);
    m.post(M[5,6] == 0);
    m.post(M[5,7] == 0);
    m.post(M[5,9] == 0);
    m.post(M[6,5] == 0);
    m.post(M[7,2] == 0);
    m.post(M[7,5] == 0);
    m.post(M[7,8] == 0);
    m.post(M[8,3] == 0);
    m.post(M[8,7] == 0);
    m.post(M[9,5] == 0);


} using {
      
  labelFF(m);

  num_solutions := num_solutions + 1;

  forall(i in 1..n) {
    forall(j in 1..n) {
      cout << M[i,j] << " ";
    }
    cout << endl;
  }
  cout << endl;

}


cout << "\nnum_solutions: " << num_solutions << endl;
    
int t1 = System.getCPUTime();
cout << "time:      " << (t1-t0) << endl;
cout << "#choices = " << m.getNChoice() << endl;
cout << "#fail    = " << m.getNFail() << endl;
cout << "#propag  = " << m.getNPropag() << endl;