CS代考 ECS 140A Assignment 4

ECS 140A Assignment 4

/* For this assignment you will need to implement your
own 9×9 Sudoku solver in SWI-Prolog. Basically you

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have a 9×9 grid, and you must fill in the
grid so that each row, each column, and each of 9 3×3
grids all contain the numbers 1 through 9. */

/* You will need to fill in the sudoku predicate below,
and also supply any helper predicates. You should think
about what has to be true to make a sudoku table valid
and work out how to check for each of these conditions. */

/* To test your program we will type “test.” into
SWI-Prolog and study the results. */

/* When grading we will be looking for solutions that
work correctly and run in less than a minute,
but we also want to see clearly commented
code explaining what each predicate is doing. If
your code does not work but appears to be close to a
working solution or your comments are along the correct
lines, then you will receive some credit. If your code is not
clearly commented showing an understanding of what is
happening then you will receive considerably fewer points
than you might have otherwise. */

% WHAT YOU NEED TO HAND IN
/* You should use Canvas to submit a plain text file
named ‘sudoku.pl’ that contains your sudoku predicate and
any helper predicates. We should be able to run this by
using the tests provided. The file should contain your
name and student number. */

/* Keep in mind that you may not use the Constraint
Logic Programming features supplied by SWI-Prolog. */

/* ———– cut here ———– */

/* include name and student number */

/* This runs all the simple tests. If it
works correctly, you should see three identical
and completed sudoku tables, and finally the
word false (as test0c will fail.) */
test0, nl,
test0a, nl,
test0b, nl,

/* This is a completly solved solution. */
[9,6,3,1,7,4,2,5,8],
[1,7,8,3,2,5,6,4,9],
[2,5,4,6,8,9,7,3,1],
[8,2,1,4,3,7,5,9,6],
[4,9,6,8,5,2,3,1,7],
[7,3,5,9,6,1,8,2,4],
[5,8,9,7,1,3,4,6,2],
[3,1,7,2,4,6,9,8,5],
[6,4,2,5,9,8,1,7,3]],
sudoku(L),
printsudoku(L).

/* This has a solution (the one in test0) which
should be found very quickly. */
[9,_,3,1,7,4,2,5,8],
[_,7,_,3,2,5,6,4,9],
[2,5,4,6,8,9,7,3,1],
[8,2,1,4,3,7,5,_,6],
[4,9,6,8,5,2,3,1,7],
[7,3,_,9,6,1,8,2,4],
[5,8,9,7,1,3,4,6,2],
[3,1,7,2,4,6,9,8,5],
[6,4,2,5,9,8,1,7,3]],
sudoku(L),
printsudoku(L).

/* This has a solution (the one in test0) and
may take a few seconds to find. */
[9,_,3,1,7,4,2,5,_],
[_,7,_,3,2,5,6,4,9],
[2,5,4,6,_,9,_,3,1],
[_,2,1,4,3,_,5,_,6],
[4,9,_,8,_,2,3,1,_],
[_,3,_,9,6,_,8,2,_],
[5,8,9,7,1,3,4,6,2],
[_,1,7,2,_,6,_,8,5],
[6,4,2,5,9,8,1,7,3]],
sudoku(L),
printsudoku(L).

/* This one obviously has no solution (column 2 has
two nines in it.) and it may take a few seconds
to deduce this. */
[_,9,3,1,7,4,2,5,8],
[_,7,_,3,2,5,6,4,9],
[2,5,4,6,8,9,7,3,1],
[8,2,1,4,3,7,5,_,6],
[4,9,6,8,5,2,3,1,7],
[7,3,_,9,6,1,8,2,4],
[5,8,9,7,1,3,4,6,2],
[3,1,7,2,4,6,9,8,5],
[6,4,2,5,9,8,1,7,3]],
sudoku(L),
printsudoku(L).

% print sudoku table
printsudoku([]).
printsudoku([H|T]) :-
write(H),nl,
printsudoku(T).

% Expects a list of lists 9 by 9 grid.
sudoku(L) :-

% YOU NEED TO COMPLETE THIS PREDICATE, PLUS PROVIDE ANY HELPER PREDICATES BELOW.

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