Portability | portable |
---|---|

Stability | experimental |

Maintainer | erkokl@gmail.com |

The Sudoku solver, quintessential SMT solver example!

- type Row = [SWord8]
- type Board = [Row]
- check :: [SWord8] -> SBool
- valid :: Board -> SBool
- type Puzzle = (Int, [SWord8] -> Board)
- solve :: Puzzle -> IO ()
- dispSolution :: Puzzle -> (Bool, [Word8]) -> IO ()
- solveAll :: Puzzle -> IO ()
- puzzle0 :: Puzzle
- puzzle1 :: Puzzle
- puzzle2 :: Puzzle
- puzzle3 :: Puzzle
- puzzle4 :: Puzzle
- puzzle5 :: Puzzle
- puzzle6 :: Puzzle
- allPuzzles :: IO ()

# Modeling Sudoku

A row is a sequence of 8-bit words, too large indeed for representing 1-9, but does not harm

check :: [SWord8] -> SBoolSource

Given a series of elements, make sure they are all different and they all are numbers between 1 and 9

type Puzzle = (Int, [SWord8] -> Board)Source

A puzzle is a pair: First is the number of missing elements, second is a function that given that many elements returns the final board.

# Solving Sudoku puzzles

dispSolution :: Puzzle -> (Bool, [Word8]) -> IO ()Source

Helper function to display results nicely, not really needed, but helps presentation

# Example boards

According to the web, this is the toughest sudoku puzzle ever.. It even has a name: Al Escargot: http://zonkedyak.blogspot.com/2006/11/worlds-hardest-sudoku-puzzle-al.html

The following is nefarious according to http://haskell.org/haskellwiki/Sudoku

allPuzzles :: IO ()Source

Solve them all, this takes a fraction of a second to run for each case