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Is there any algorithm that solves ANY traditional sudoku puzzle, WITHOUT guessing?

Here Guessing means trying an candidate and see how far it goes, if a contradiction is found with the guess, backtracking to the guessing step and try another candidate; when all candidates are exhausted without success, backtracking to the previous guessing step (if there is one; otherwise the puzzle proofs invalid.), etc.

EDIT1: Thank you for your replies.

traditional sudoku means 81-box sudoku, without any other constraints. Let us say the we know the solution is unique, is there any algorithm that can GUARANTEE to solve it without backtracking? Backtracking is a universal tool, I have nothing wrong with it but, using a universal tool to solve sudoku decreases the value and fun in deciphering (manually, or by computer) sudoku puzzles.

How can a human being solve the so called "the hardest sudoku in the world", does he need to guess?

I heard some researcher accidentally found that their algorithm for some data analysis can solve all sudoku. Is that true, do they have to guess too?

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Just curious, why can't you use backtracking? –  Patrik Aug 21 '11 at 0:17
Whilst I understand what you are trying to do, and it is possible for beginner/easy ones, some of the harder sudoku puzzles involving a guessing step where you can't progress without taking a gamble and backtracking. –  Wil Aug 21 '11 at 0:20
Does an expert play rubik's cube by trial and error? –  justin Aug 21 '11 at 12:39
@Justin: No rubik's cubes have always an algorithmic solution. See for example rubikssolver.com –  Patrik Aug 21 '11 at 13:44
Long ago I was working on such an algorithm and came up with something that is close. I used place finding, candidate checking, and primitive set techniques together. It was able to solve almost everything but the very hard problems. I found something called X-wing and Y-wing technique what I think will complete the solution. But I didn't understand those clearly and abandoned that project. If anyone aware of those technique and ever implemented, we can come up with a complete solution. –  Dipto Mar 28 '13 at 9:25
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1 Answer

You can use the techniques that humans use to solve sudokus. Just keep track of every possible number in every square and place a number if there is only one possibility. Keep updating the possibilies until the sudoku is solved. You can exclude possibilities by using the rules or use some more complex reasoning. For example, if in one row two squares have the possibility 1 and 2, all other squares in that row can't be 1 or 2.

However, keep in mind that not every sudoku has a unique solution, and not every sudoku can be solved with this method.

Edit: More complicated human techniques can be found here:


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"not every sudoku can be solved with this method" — So your "answer" doesn't actually answer the question, then. –  jwodder Aug 21 '11 at 0:23
If you have, for example, an empty puzzle, you won't be able to solve it without 'guessing'. There is no answer for the generic case. –  Patrik Aug 21 '11 at 0:26
Does the empty puzzle count as a "traditional" Sudoku puzzle? Perhaps that category needs to be better defined before an explicit answer can be given. –  jwodder Aug 21 '11 at 0:30
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