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1 /* SUDOKU, Number Placement Puzzle */ |
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2 |
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3 /* Written in GNU MathProg by Andrew Makhorin <mao@mai2.rcnet.ru> */ |
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4 |
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5 /* This example shows how to use the table statement. |
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6 The sudoku to be solves is read from file sudoku_in.csv. |
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7 The solution is written to sudoku_out.csv. |
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8 The file format is CSV as defined in |
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9 RFC 4180 - Common Format and MIME Type for |
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10 Comma-Separated Values (CSV) Files */ |
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11 |
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12 /* Sudoku, also known as Number Place, is a logic-based placement |
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13 puzzle. The aim of the canonical puzzle is to enter a numerical |
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14 digit from 1 through 9 in each cell of a 9x9 grid made up of 3x3 |
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15 subgrids (called "regions"), starting with various digits given in |
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16 some cells (the "givens"). Each row, column, and region must contain |
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17 only one instance of each numeral. |
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18 |
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19 Example: |
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20 |
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21 +-------+-------+-------+ |
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22 | 5 3 . | . 7 . | . . . | |
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23 | 6 . . | 1 9 5 | . . . | |
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24 | . 9 8 | . . . | . 6 . | |
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25 +-------+-------+-------+ |
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26 | 8 . . | . 6 . | . . 3 | |
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27 | 4 . . | 8 . 3 | . . 1 | |
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28 | 7 . . | . 2 . | . . 6 | |
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29 +-------+-------+-------+ |
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30 | . 6 . | . . . | 2 8 . | |
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31 | . . . | 4 1 9 | . . 5 | |
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32 | . . . | . 8 . | . 7 9 | |
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33 +-------+-------+-------+ |
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34 |
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35 (From Wikipedia, the free encyclopedia.) */ |
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36 set fields dimen 2; |
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37 |
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38 param id; |
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39 |
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40 param givens{1..9, 1..9}, integer, >= 0, <= 9, default 0; |
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41 /* the "givens" */ |
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42 |
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43 /* |
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44 table ti IN 'MySQL' 'Database=glpk;UID=glpk;PWD=gnu' |
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45 'sudoku' : |
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46 fields <- [COL, LIN], givens ~ VAL; |
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47 */ |
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48 table ti IN 'MySQL' 'Database=glpk;UID=glpk;PWD=gnu' |
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49 'SELECT * FROM sudoku WHERE ID = ' & id : |
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50 fields <- [COL, LIN], givens ~ VAL; |
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51 |
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52 var x{i in 1..9, j in 1..9, k in 1..9}, binary; |
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53 /* x[i,j,k] = 1 means cell [i,j] is assigned number k */ |
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54 |
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55 s.t. fa{i in 1..9, j in 1..9, k in 1..9: givens[i,j] != 0}: |
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56 x[i,j,k] = (if givens[i,j] = k then 1 else 0); |
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57 /* assign pre-defined numbers using the "givens" */ |
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58 |
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59 s.t. fb{i in 1..9, j in 1..9}: sum{k in 1..9} x[i,j,k] = 1; |
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60 /* each cell must be assigned exactly one number */ |
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61 |
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62 s.t. fc{i in 1..9, k in 1..9}: sum{j in 1..9} x[i,j,k] = 1; |
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63 /* cells in the same row must be assigned distinct numbers */ |
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64 |
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65 s.t. fd{j in 1..9, k in 1..9}: sum{i in 1..9} x[i,j,k] = 1; |
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66 /* cells in the same column must be assigned distinct numbers */ |
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67 |
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68 s.t. fe{I in 1..9 by 3, J in 1..9 by 3, k in 1..9}: |
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69 sum{i in I..I+2, j in J..J+2} x[i,j,k] = 1; |
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70 /* cells in the same region must be assigned distinct numbers */ |
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71 |
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72 /* there is no need for an objective function here */ |
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73 |
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74 solve; |
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75 |
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76 table ta{(i,j) in fields} OUT |
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77 'MySQL' 'Database=glpk;UID=glpk;PWD=gnu' |
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78 'DELETE FROM sudoku_solution' |
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79 'WHERE ID = ' & id & ';' |
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80 'INSERT INTO sudoku_solution' |
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81 '(ID, COL, LIN, VAL)' |
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82 'VALUES(?, ?, ?, ?);' : |
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83 id ~ ID, i ~ COL, j ~ LIN, (sum{k in 1..9} x[i,j,k] * k) ~ VAL; |
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84 |
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85 printf "\nSudoku to be solved\n"; |
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86 for {i in 1..9} |
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87 { for {0..0: i = 1 or i = 4 or i = 7} |
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88 printf " +-------+-------+-------+\n"; |
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89 for {j in 1..9} |
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90 { for {0..0: j = 1 or j = 4 or j = 7} printf(" |"); |
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91 printf " %d", givens[i,j]; |
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92 for {0..0: j = 9} printf(" |\n"); |
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93 } |
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94 for {0..0: i = 9} |
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95 printf " +-------+-------+-------+\n"; |
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96 } |
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97 printf "\nSolution\n"; |
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98 for {i in 1..9} |
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99 { for {0..0: i = 1 or i = 4 or i = 7} |
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100 printf " +-------+-------+-------+\n"; |
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101 for {j in 1..9} |
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102 { for {0..0: j = 1 or j = 4 or j = 7} printf(" |"); |
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103 printf " %d", sum{k in 1..9} x[i,j,k] * k; |
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104 for {0..0: j = 9} printf(" |\n"); |
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105 } |
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106 for {0..0: i = 9} |
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107 printf " +-------+-------+-------+\n"; |
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108 } |
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109 |
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110 data; |
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111 |
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112 param id := 1; |
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113 end; |