public PuzzleGrid InitGrid()
        {                                                                  //Randomly fill in the first row and column of puzzlegrid
            PuzzleGrid tempGrid = new PuzzleGrid {
            };                                                             //temporary grid to assign values into
            int        row      = 0;                                       //variable for navigating 'rows'
            int        col      = 0;                                       //variable for navigating 'columns'
            int        newVal;                                             //value to place into grid
            bool       solved;
            List <int> valueSet = new List <int>(Enumerable.Range(-9, 9)); //range
            //of numbers that can be added to the grid
            List <int> valueSet2 = new List <int>();                       //placeholder values in column 0
            Random     rnd       = new Random();                           //random variable for choosing random number
            int        randIndex = 0;                                      //index in valueSet/valueSet2 that is accessed

            randIndex = rnd.Next(0, 8);                                    //get a random number and place in grid(0,0)
            newVal    = valueSet[randIndex];
            tempGrid.InitSetCell(row, col, newVal);
            valueSet.Remove(newVal); //remove paced value from options
            for (row = 1; row < 9; row++)
            {                        //fills in column 0 with remaining possible values, storing in place-
                      //holder as it goes so as to preserve when placing in row 0 later
                randIndex = rnd.Next(0, valueSet.Count);
                newVal    = valueSet[randIndex];
                valueSet2.Add(newVal);
                valueSet.Remove(newVal);
                tempGrid.InitSetCell(row, col, newVal);
            }
            row = 0;         //reset row to 0
            for (col = 1; col < 3; col++)
            {                //fills in col 1,2 of row 0, checking that don't duplicate the
                //values in rows 1,2 of col 0
                randIndex = rnd.Next(0, valueSet2.Count);
                newVal    = valueSet2[randIndex];
                while ((newVal == tempGrid.Grid[1, 0] || (newVal == tempGrid.Grid[2, 0])))
                {
                    randIndex = rnd.Next(0, valueSet2.Count);
                    newVal    = valueSet2[randIndex];
                }
                valueSet2.Remove(newVal);
                tempGrid.InitSetCell(row, col, newVal);
            }
            for (col = 3; col < 9; col++)
            {                   //fill in remainder of row 0 with remaining possible values
                randIndex = rnd.Next(0, valueSet2.Count);
                newVal    = valueSet2[randIndex];
                valueSet2.Remove(newVal);
                tempGrid.InitSetCell(row, col, newVal);
            }
            do
            {
                puzzleSolver = new PuzzleSolver();
                puzzleSolver.SolveGrid((PuzzleGrid)tempGrid.Clone(), false);     //Slv to fill remainder of grid
                SolutionGrid = puzzleSolver.SolutionGrid;
            } while (SolutionGrid == null || SolutionGrid.IsBlank());
            PermaGrid = Blanker(SolutionGrid); //call Blanker to carry out the
            return(PermaGrid);                 //blanking of fileds,then return the grid to user to solve
        }
        //	Call SolveGrid to solve puzzlegrid
        //Store solved gamegrid as the correct solution in solutiongrid

        public PuzzleGrid Blanker(PuzzleGrid solvedGrid)
        {                              //enable blanking of squares based on difficulty
            PuzzleGrid tempGrid;
            PuzzleGrid saveCopy;
            //temporary grids to save between tests
            bool unique      = true;             //flag for if blanked form has unique soln
            int  totalBlanks = 0;                //count of current blanks
            int  tries       = 0;                //count of tries to blank appropriately
            int  desiredBlanks;                  //amount of blanks desired via difficulty
            int  symmetry = 0;                   //symmetry type

            tempGrid = (PuzzleGrid)solvedGrid.Clone();
            //cloned input grid (no damage)
            Random rnd = new Random();    //allow for random number generation

            switch (difficulty)           //set desiredBlanks via chosen difficulty
            {
            case Difficulty.Easy:         //easy difficulty
                desiredBlanks = 40;
                break;

            case Difficulty.Medium:         //medium difficulty
                desiredBlanks = 45;
                break;

            case Difficulty.Hard:         //hard difficulty
                desiredBlanks = 50;
                break;

            default:         //easy difficulty
                desiredBlanks = 40;
                break;
            }

            symmetry = rnd.Next(0, 2);                   //Randomly select symmetry
            do
            {                                            //call RandomlyBlank() to blank random squares symmetrically
                saveCopy = (PuzzleGrid)tempGrid.Clone(); // in case undo needed
                tempGrid = RandomlyBlank(tempGrid, symmetry, ref totalBlanks);
                //blanks 1 or 2 squares according to symmetry chosen
                puzzleSolver = new PuzzleSolver();
                unique       = puzzleSolver.SolveGrid((PuzzleGrid)tempGrid.Clone(), true);       // will it solve uniquely?
                if (!unique)
                {
                    tempGrid = (PuzzleGrid)saveCopy.Clone();
                    tries++;
                }
            } while((totalBlanks < desiredBlanks) && (tries < 1000));
            solvedGrid = tempGrid;
            solvedGrid.Finish();
            return(solvedGrid);
        }
Exemplo n.º 3
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        private void EntryCompleteClick(object sender, RoutedEventArgs e)
        {
            puzzleSolver = new PuzzleSolver();
            var result = puzzleSolver.SolveGrid((PuzzleGrid)puzzleGrid.Clone(), true);

            if (result == true)
            {
                LeavePuzzleEntryState();
            }
            else
            {
                MessageBox.Show("That puzzle is not solvable, please modify it so that it is.");
            }
        }
Exemplo n.º 4
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        /// <summary>
        /// This function is called when we need to solve the puzzle.
        /// </summary>
        private void SolveNowClick(object sender, RoutedEventArgs e)
        {
            puzzleSolver = new PuzzleSolver();
            var result = puzzleSolver.SolveGrid(puzzleGrid, true);

            if (result == true)
            {
                SetPuzzleGrid(puzzleSolver.SolutionGrid);
                MessageBox.Show("The current puzzle has been solved.");
            }
            else
            {
                MessageBox.Show("The current puzzle cannot be solved.");
            }
        }
 /// <summary>
 /// This constructs a puzzle generator class.
 /// </summary>
 /// <param name="difficultyIn">The difficulty to generate a new puzzle.</param>
 public PuzzleGenerator(Difficulty difficultyIn)
 {
     puzzleSolver = new PuzzleSolver();
     difficulty   = difficultyIn;
 }