Problem: We have a square grid of 5 rows and 4 columns. We need to use these numbers to fill the grid;
1,2,3,4,5,6,7,8,9,10,12,18,20,21,24,27,30,35,36,40. We need to fill the grid in such a way that every horizontal and vertical neighbors should divide other without remainder. For example,
3 can be neighbors because
12 % 3 == 0, but
5 and 12 can't. Grid 2x2 is given to be
I tried to solve problem using a list of sets. Each set represent possible values for each grid. When every set has only one element, problem is solved. Here are the functions I use to try to solve this problem (I added whole thing just in case, but I think my problem is in solve function.);
class CannotSolveError(Exception): pass def suitable_neighbor(a,b): "return True if a and b can be neighbors." return (a > b) and (a % b == 0) or (b % a == 0) def equalize_tables(table1, table2): "Make two tables equal, by changing first one in-place" for i in range(len(table1)): table1[i] = table2[i] def remove_possibility(table, row, column, value): """Remove possibilities that can't be neighbors with value in rowxcolumn grid.""" index = ((row - 1) * num_cols) + column - 1 if len(table[index]) == 1: return # This is a solved grid, do nothing. remaining_possibilities = set( filter(lambda x: suitable_neighbor(x, value), table[index]) ) if not remaining_possibilities: raise ValueError("Invalid move") if len(remaining_possibilities) == 1: "Only one possibility remains, try to put it!" copy_table = table[:] try: "Try it on copy" put(copy_table, row, column, remaining_possibilities.pop()) except ValueError: "Cannot put, re-raise and do nothing.." raise else: "Putting is successfull, update original table" equalize_tables(table, copy_table) else: table[index] = remaining_possibilities def put(table, row, column, value): """Put a value on a grid, modifies given table. use with care!""" index = ((row - 1) * num_cols) + column - 1 "Is this move possible?" if value not in table[index]: raise ValueError("Cannot put %d on %dx%d" % (value, row, column)) "Remove possibilities from left neighbor" if column > 1: remove_possibility(table, row, column - 1, value) "Remove possibilities from right neighbor" if column < num_cols: remove_possibility(table, row, column + 1, value) "Remove possibilities from upper neighbor" if row > 1: remove_possibility(table, row - 1, column, value) "Remove possibilities from lower neighbor" if row < num_rows: remove_possibility(table, row + 1, column, value) "Remove this value from every other set." for i in range(num_rows * num_cols): if i == index: continue table[i].discard(value) "Put one-item set in place. Have to do this last." table[index] = set([value]) def solve(table): "Try to solve the table by trying possible values on grids." to_try = [(i,len(table[i])) for i in range(num_rows * num_cols) if len(table[i]) > 1] "Grid with least remaining possibilities will be tried first." to_try.sort(key = lambda x: x) for index, _ in to_try: for value in table[index]: row = index / num_cols + 1 column = index % num_cols + 1 copy_table = table[:] put(copy_table, row, column, value) try: solve(copy_table) equalize_tables(table, copy_table) return except CannotSolveError: continue except ValueError: continue raise CannotSolveError
I think this algorithm should solve the problem. But I am exceding maximum recursion depth. Any ideas how to work around this, or how should I solve this problem better in Python?
This is not a homework question. I am working on this by myself.