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A Sudoku Solver in C 1.20
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September 23 2011
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A Sudoku Solver in C 1.20
Description
A Sudoku Solver in C is a consolebased Linux program, written in C language, that solves Su Doku puzzles using deductive logic. It will only resort to trialanderror and backtracking approaches upon exhausting its deductive moves.Puzzles must be of the standard 9x9 variety using the (ASCII) characters 1 through 9 for the puzzle symbols. Puzzles should be submitted as 81 character strings which, when read lefttoright will fill a 9x9 Sudoku grid from lefttoright and toptobottom. In the puzzle specification, the characters 1  9 represent the puzzle givens or clues. Any other nonblank character represents an unsolved cell.The puzzle solving algorithm is home grown. I did not borrow any of the usual techniques from the literature, e.g. Donald Knuth's "Dancing Links." Instead I rolled my own from scratch as a personal challenge. As such, its performance can only be blamed on yours truly. Still, I feel it is quite fast. On a 333 MHz Pentium II Linux box it solves typical medium force puzzles in approximately 800 microseconds or about 1,200 puzzles per second, give or take. On an Athlon XP 3000 it solves about 6,600 puzzles per sec. (Solving time is dependent upon degree of difficulty, so YMMV.)Description of Algorithm:The puzzle algorithm initially assumes every unsolved cell can assume every possible value. It then uses the placement of the givens to refine the choices available to each cell. I call this the markup phase.After markup completes, the algorithm then looks for singleton cells with values that, due to constraints imposed by the row, column, or 3x3 region, may only assume one possible value. Once these cells are assigned values, the algorithm returns to the markup phase to apply these changes to the remaining candidate solutions. The markup/singleton phases alternate until either no more changes occur, or the puzzle is solved. I call the markup/singleton elimination loop the Simple Solver because in a large percentage of cases it solves the puzzle. If the simple solver portion of the algorithm doesn't produce a solution, then more advanced deductive rules are applied.I've implemented two additional rules as part of the deductive puzzle solver. The first is SubSet elimination wherein a row/column/region is scanned for X number of cells with X number of matching candidate solutions. If such subsets (or tuples) are found in the row, column, or region, then the candidates values from the subset may be eliminated from all other unsolved cells within the row, column, or region, respectively.The next deductive rule examines each region looking for candidate values that exclusively align themselves along a single row or column, i.e. a vector. If such candidate values are found, then they may be eliminated from the cells outside of the region that are part of the aligned row or column.Note that each of the advanced deductive rules calls all preceeding rules, in order, if that advanced rule has effected a change in puzzle markup.Finally, if no solution is found after iteratively applying all deductive rules, then we begin trialanderror using recursion for backtracking. A working copy is created from our puzzle, and using this copy the first cell with the smallest number of candidate solutions is chosen. One of the solutions values is assigned to that cell, and the solver algorithm is called using this working copy as its starting point. Eventually, either a solution, or an impasse is reached.If we reach an impasse, the recursion unwinds and the next trial solution is attempted. If a solution is found (at any point) the values for the solution are added to a list. Again, so long as we are examining all possibilities, the recursion unwinds so that the next trial may be attempted. It is in this manner that we Enumerate puzzles with multiple solutions.Note that it is certainly possible to add to the list of applied deductive rules. The techniques known as "XWing" and "Swordfish" come to mind. On the other hand, adding these additional rules will, in all likelihood, slow the solver down by adding to the computational burden while producing very few results. I've seen the law of diminishing returns even in some of the existing rules, e.g. in subset elimination I only look at two and three valued subsets because taking it any further than that degraded performance.What's New in This Release:· Markup and evaluation rules have been refactored for thoroughness and efficiency.· The solver engine has been packaged as a reusable object module. · The puzzle scoring system has been improved, and a bug that caused early bifurcation was fixed.
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