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How do you generate a Sudoku board with a unique solution? What I thought was to initialize a random board and then remove some numbers. But my question is how do I maintain the uniqueness of a solution?

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7 Answers 7

up vote 10 down vote accepted

Easy:

  1. Find all solutions with an efficient backtracking algorithm.
  2. If there is just one solution, you are done. Otherwise if you have more than one solution, find a position at which most of the solutions differ. Add the number at this position.
  3. Go to 1.

I doubt you can find a solution that would be much faster than this.

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I think you are right, but how to grade level for the borad generated in this way, it seems no parameter to control the difficut. –  guilin 桂林 Aug 9 '11 at 8:46
    
Well, that's a different question, much more difficult. What is sure is that he more numbers you add, the easier. –  TMS Aug 9 '11 at 10:06

Here is the way my own SuDoKu program does it:

1) start with a complete, valid board (filled with 81 numbers)

2) make a list of all 81 cell positions and shuffle it randomly

3) As long as the list is not empty, take the next position from the list and remove the number from the related cell

4) test uniqueness using a fast solver (with backtracking if needed). My solver could count all solutions, but it stops when it found more than 1 solution.

5) If the current board has just one solution, goto step 3) and repeat.

6) If the current board has more than one solution, undo the last removal (step 3), and continue step 3 with the next position from the list

7) stop when you have tested all 81 positions.

This gives you not only unique boards, but boards where you cannot remove any more numbers without destroying the uniqueness of the solution.

Of course, this is only the second half of the algorithm. The first half is to find a complete valid board first (randomly filled!) It works very similar, but "in the other direction":

1) start with an empty board

2) add a random number at one of the free cells (randomly chosen)

3) Use the solver to check if the current board has at least one valid solution. If not, undo step 2 and repeat with another number and cell

4) Repeat until the board is completely filled with numbers

Of course, in step 2 the numbers to be used are not completely chosen randomly: for each cell, the program maintains a list of numbers that are valid for this cell according to the SuDoKu rules. Only numbers from that list are taken into account.

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I found your algorithm to be particularly simple and effective. Thanks. –  krawyoti May 6 '13 at 15:09
    
I'm a bit perplexed by (3) Use the solver to check if the current board has at least one valid solution. If you've only added one character to an empty board (in step 2) and then test your solver on in (in step 3), you're essentially solving an empty board. I don't think my solver is that good, and more importantly if it could solve an empty board then the problem of getting a valid solution would already be solved and I could skip to step 4! –  The111 Aug 9 '13 at 2:53
    
@The111: solving an empty board is easy, you can do this even without a computer. But I am looking for a randomly filled board, that's why I don't just stop after step 3. –  Doc Brown Jan 17 at 18:43

You can cheat. Start with an existing Sudoku board that can be solved then fiddle with it.

You can swap any row of three 3x3 blocks with any other row. You can swap any column of three 3x3 blocks with another column. Within each block row or block column you can swap single rows and single columns. Finally you can permute the numbers so there are different numbers in the filled positions as long as the permutation is consistent across the whole board.

None of these changes will make a solvable board unsolvable.

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but how about uniqueness? how do u choose the blank cells to keep the solution unique? –  Ameer Jewdaki Aug 3 '11 at 12:21
    
@kvphxga: You start with a partial board with a unique solution. None of the allowed swaps affect the uniqueness of the solution. –  rossum Aug 3 '11 at 12:47

Unless P = NP, there is no polynomial-time algorithm for generating general Sudoku problems with exactly one solution.

In his master's thesis, Takayuki Yato defined The Another Solution Problem (ASP), where the goal is, given a problem and some solution, to find a different solution to that problem or to show that none exists. Yato then defined ASP-completeness, problems for which it is difficult to find another solution, and showed that Sudoku is ASP-complete. Since he also proves that ASP-completeness implies NP-hardness, this means that if you allow for arbitrary-sized Sudoku boards, there is no polynomial-time algorithm to check if the puzzle you've generated has a unique solution (unless P = NP).

Sorry to spoil your hopes for a fast algorithm!

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To be fair, you can generate a few hundred unique puzzles a second using the technique in the selected answer. –  Grandpa Dec 18 '12 at 12:58
    
Well, in this case i would like to see that. Because If you try to generate diabolical sudoku, it is sometimes really long to test all possible possibilities. For easy sudoku with a lot of initial filled digits, I agree. –  dyesdyes Jan 3 '13 at 18:11

It's not easy to give a generic solution. You need to know a few things to generate a specific kind of Sudoku... for example, you cannot build a Sudoku with more than nine empty 9-number groups (rows, 3x3 blocks or columns). Minimum given numbers (i.e. "clues") in a single-solution Sudoku is believed to be 17, but number positions for this Sudoku are very specific if I'm not wrong. The average number of clues for a Sudoku is about 26, and I'm not sure but if you quit numbers of a completed grid until having 26 and leave those in a symmetric way, you may have a valid Sudoku. On the other hand, you can just randomly quit numbers from completed grids and testing them with CHECKER or other tools until it comes up with an OK.

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I also think that you will have to explicitly check uniqueness. If you have less than 17 givens, a unique solution is very unlikely, though: None has yet been found, although it is not clear yet whether it might exist.)

But you can also use a SAT-solver, as opposed to writing an own backtracking algorithm. That way, you can to some extent regulate how difficult it will be to find a solution: If you restrict the inference rules that the SAT-solver uses, you can check whether you can solve the puzzle easily. Just google for "SAT solving sudoku".

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Start with an int array like:

123456789
456789123
789123456
234567891
567891234
891234567
345678912
678912345
912345678

Then do the following operations:

  1. Swap horizontally by switching the first row with the last, second row with the second-to last, and so on.
  2. Swap vertically in the same way, but instead of using rows, use columns.
  3. Swap diagonally along a line from the bottom-left to top-right so that the top-left term goes to the bottom-right and so on.
  4. Swap diagonally along the opposite line.

Do this at least 999999 times .

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regardless what you end up with, how you remove elements from the final solution is what determines if a "board" has a unique solution. Your algorithm provides solutions without a board that leads to them. The problem is that after removing elements, there's no assurance that they still lead to a simple solution. For example, given any particular solution generated by your alogrithm, remove all the 1's and 2's. The resulting board has at least two solutions (the positions of the 1's and 2's given by the original solution can be swapped to give an alternate solution). –  David Marx Jan 22 '13 at 20:42

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