# How to generate valid Sudoku board? [ and difficulty rating ]

I'm working on a Sudoku programm. For the moment, I can generate a valid Sudoku board, but I can't know if I generate an easy or hard one.

Here is my aproach:

I start with generating the full board. The final board is empty.

I start fill 21 random cells with values from full board.

I find all solutions of the final board, and for each cell, count how many times the solutions differ by the full board, pick the one with the most, and fill it. ( This idea is taken from here : How to generate Sudoku boards with unique solutions first answer )

Do this, untill you have only one solution.

Now, I don't know if this aproach with 21 random cells is the right one. Sometimes I have a lot of solutions after first 21 random cells, other times a few.

For the moment I generate a final board on an average time of: 0,3 seconds.

I would like to tell me a different and fast method, beside this one, with 21 random cells, maybe where I can rank the difficulty of the board.

Thank you!

Take a look at this code that implements 3 levels of Difficulty{Easy, Medium, Hard}

``````using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;

namespace SuperSudoku
{
public enum Difficulty
{
Easy, Medium, Hard
}

class PuzzleGenerator
{
private PuzzleSolver puzzleSolver;

/// <summary>
///
/// </summary>
public PuzzleGrid PermaGrid;

/// <summary>
///
/// </summary>
public PuzzleGrid SolutionGrid;

/// <summary>
///
/// </summary>
private Difficulty difficulty;

/// <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;
}

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];
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;
}

public PuzzleGrid RandomlyBlank(PuzzleGrid tempGrid, int sym, ref int blankCount)
{
//blank one or two squares(depending on if on center line) randomly
Random rnd = new Random(); //allow random number generation
int row = rnd.Next(0, 8); //choose randomly the row
int column = rnd.Next(0, 8); //and column of cell to blank
while (tempGrid.Grid[row, column] == 0) //don't blank a blank cell
{
row = rnd.Next(0, 8);
column = rnd.Next(0, 8);
}
tempGrid.InitSetCell(row, column, 0); //clear chosen cell
blankCount++; //increment the count of blanks
switch (sym)
{
//based on symmetry, blank a second cell
case 0: //vertical symmetry
if (tempGrid.Grid[row, 8 - column] != 0) //if not already blanked
blankCount++; //increment blank counter
tempGrid.InitSetCell(row, 8 - column, 0); //blank opposite cell
break;
case 1: //horizontal symmetry
if (tempGrid.Grid[8 - row, column] != 0)
blankCount++;
tempGrid.InitSetCell(8 - row, column, 0);
break;
case 2: //diagonal symmetry
if (tempGrid.Grid[column, row] != 0)
blankCount++;
tempGrid.InitSetCell(column, row, 0);
break;
default: //diagonal symmetry
if (tempGrid.Grid[row, 8 - column] != 0)
blankCount++;
tempGrid.InitSetCell(column, row, 0);
break;
}
return tempGrid;
}

}
}
``````

the rest of code is in here

• Glad 2 see someone sharing such amount of code. I'll definetily take a close look on those difficulty levels. Thanks! – Andrei Neculai Dec 23 '12 at 20:53