//reaches 301962 with one line system.out.println
// TOTAL:  362880
/*
Online Java - IDE, Code Editor, Compiler
Online Java is a quick and easy tool that helps you to build, compile, test your programs
online.
*/
// This has been created to ensure I can utilize any random functions more efficiently.
// It is a creation of the nPr permutation calculator.
// It has used techniques I learnt including recursion and also memoization to speed up execution.
// I will incorporate this into Java applications I created
//TEST CASES
//r=2 n=5 PASS
//r=5 n=5 PASS
//r=1 n=4 PASS
//r=0 n=3 PASS
//r=0 n=0 PASS
// now going to flip the above
//r=5 n=2 PASS
//r=5 n=5 PASS
//r=4 n=1 PASS
//r=3 n=0 PASS
//test to make numerator less than r
// n = 4 r=3 PASS

// With lots trying, there is a major issue in trying to get the numbers back out of an int[][] that
// have been stored in list (copied from Map).
//For some reason, it is able to show values in Map.get (using the key which is simply the pos of 3x3 grid in it).
//I can process all int[] in the value, and see them as Array list...

//I have tried everything in my capacity to make these numbers visible, but it has not worked:
//This includes adding the miniGrid to a 3D array and processing...
//running nested loop to get each number from array and storing in another 2D array.
//simply running  System.out.println miniGrid[0][0]  up to [2][2],  but the output is non-consistent 
//with what is being stored...
// I have also included commented code (for loop initialisation) and also setting temp based on this, but
//its irrelevant given above situation...

//Complete forgot to set temp = mp.get(i)!!!!
//Need to try this first........

// The only left technique is using the Set<String> s = new HashSet() since the String of unique permutation
//was written here at the time that a unique permutation acquired.

//It will be attempted to extract the numbers from the String using String Tokenizer.  Cast them to Int....
//This will then be added into a  int [][]  and stored into temp, and it will try  fill9x9grid  again....
//if it fails, only option is to change the fill9x9 grid to execute via  String.charAt()...... So logic change will
//be required of the code.....


import java.math.*;
import java.util.*;
import java.util.stream.*;

interface Fillable
{
    public void fill3x3();
    public void fill9x9(Map<Integer, int[][]> mp);
    public boolean checkUniqueRows();
    public boolean checkUniqueColumns();
    public void place3X3Into9x9();
    public boolean SudokuComplete();
    public void get9x9Grid();
    public void get3x3Grid();
    public void wipe9x9Board();
    
}

class nineByNine
{
    
    
    
    int test;
    
    public nineByNine()
    {
         int [][] nineByNine = new int[][]{  {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0} };
        
    }
}


class Sudoku implements Fillable
{
    Map<Integer, int[][]> mp = new HashMap();
    int possibleNumbers[] = new int[]{1,2,3,4,5,6,7,8,9};
    //List<int> lst = new ArrayList<>(Arrays.asList(possibleNumbers));
    
    List<Integer> lst = new ArrayList<Integer>();
    
    int MiniTest[][] = new int[3][3];
    
  Map<Integer, int[][]> completedBoards = new HashMap<>();
  int numComplete9x9Boards=1;
    
    //nineByNine [] nbn = new nineByNine[5000]; // is it best way to create an array on nineByNine classes...
    //nbn[0]= new nineByNine();
    
    
    
    // it might be sensible since classes won't behave with each other...
    //Also in future... end user could create a class object of the nineByNine to test their
    //partially filled grid..
    
    
    int [][] nineByNine = new int[][]{  {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0},
                                            {0,0,0,0,0,0,0,0,0} };
    
    
    
    int nineByNineBoardNumber=0;
    
    
    
    
    
    long permutations;
    
    int threeBythree[][] = new int[3][3];    //0,0 0,1, 0,2  
                                             //1,0, 1,1, 1,2
                                             //2,0, 2,1, 2,2
    //Set <Integer[][]> s = new HashSet<>();
    
    Set<String> s = new HashSet();
    
    
    StringJoiner sj;
    int storeMiniGrids[][][];
    int item=0;
    
    int currentSize;
    int newSize;
    int[][] miniGrid;
    int[][][] miniGridContainer;
    
    List<Integer> copy = new ArrayList<>(lst);
    boolean processedDivisibleTwo=false;
    Random rand = new Random();
    
    public void wipe9x9Board()
    {
        nineByNine=null;
    }
    
    
    
    public Sudoku(long permutations)
    {
        this.permutations =permutations;
       
       /* 
        // can also add viable numbers into list this way.
        //But I want to introduce new coding techniques so used stream....
       
        for (int i=0; i<possibleNumbers.length; i++)
    {
        System.out.println("fucking here");
        lst.add(possibleNumbers[i]);
    }
    
    */
   
    fill3x3();
        
    }
    
    public void fill3x3()
    {
        //PSEUDO CODE
       
       //might be worth using stream in future
      
      int row=0;
      int col=0;
      int numbersProcessed;
     
      sj = new StringJoiner(",");
      
      System.out.println("There are : " + permutations + " permutations of arranging  3 x 3 grid" );
      
      /*
      //ok so it has completed the full population of a single 3 x 3 grid
      since it has processed   0,0  0,1  0,2
                               1,0  1,1  1,2
                               2,0, 2,1, 2,2
      */
      
      
      do
      {
          //lst=copy;  //restore the original list;
          
          IntStream stream = Arrays.stream(possibleNumbers); 
  
        // Displaying elements in Stream 
        stream.forEach(str -> lst.add(str));
          
          //fucking mistake here
          //why reset this at start of new set entry...
          
          //for a new attempt to add into the set, row continues from next row
          //col=0;  //column will start again from 0 index, however it has already also done this below in modulus check
          //so best to take it out!
          
          
          numbersProcessed=0;
          
          //System.out.println("*****This is the list size------: " + lst.size());
          //System.out.println("******These are permutations completed:" + s.size());
         
         // this is fucking wrong loop..
         //since the loop gets smaller in size... i will process what is left!!!
         //fucking!
         
         //for (int i=0; i<lst.size();i++)  // this will ensure process of random selection from lst
         
         do
         {
             processedDivisibleTwo=false;
             
             //System.out.println("numbers processed:" + numbersProcessed);
             
           int randomNumber = rand.nextInt(lst.size());   //this will get 0-8, so needs addition of 1
      
      //System.out.println("HERE!!!!");
      //System.out.println(row);
      //System.out.println(col);
      
      threeBythree[row][col]= lst.get(randomNumber);
      
      // since set has failed to work with List<String>, Int[][], Integer[][], String[][]
      //it has proven to work with String....
      //so all the numbers will be concatenated to a String
      //it might be sensible potentially to complete stringjoiner with ,
      //StringTokenizer can be used to perform retrieval....
      
      sj.add(Integer.toString(lst.get(randomNumber)));
      //sudokuMiniGrid = sudokuMiniGrid + Integer.toString(lst.get(randomNumber));
      
      //System.out.println("Following number added into the 3 x 3 grid: " + lst.get(randomNumber));
      lst.remove(randomNumber);
      
      //System.out.println("This is new list size: " + lst.size());
      
      if (col%2==0 && col!=0)    // at this point it has populated row of 3 x 3 grid...
      {
          //System.out.println("divisible");
          row++;  //it has to start a new row
          col=0;  //the column is reset back to 0
          processedDivisibleTwo = true;
      }
      
      if (!processedDivisibleTwo)   // it will only do this condition if it hasn't already been reset to 0 as part of new column above...
      {
      col++;  //otherwise it will increase the column in the given row by 1 until above condition is met...
      //System.out.println("new column: " + col);
      }
      
      numbersProcessed++;
         }while(!lst.isEmpty());
      
      currentSize=s.size();
      //System.out.println("This is the current set size: " + currentSize);
      
      //s.add(Arrays.asList(threeBythree[0][0].toString()));
      s.add(sj.toString());
      
      
      //System.out.println("************This is the first row into String: " + sj.toString());
     
      
      newSize=s.size();
      System.out.println("This is the new set size: " + newSize + "   " + sj.toString());
      
       sj=new StringJoiner(",");
      
      //this will put the matrix version of 3 x 3 if permutation is unique....
      if (newSize>currentSize)
      {
          mp.put(newSize,threeBythree);
      }
      
      get3x3Grid();
      
      row=0;     // the process starts again..
      col=0;  // the process starts again..
      
      //}while (s.size()<permutations);
      }while (s.size()<20);
      
      
      fill9x9(mp);
      get9x9Grid();
       
/*
numbers can be generated via random. and stored in int[row][col] array   (0-2 for rows and col)
get current set size
add int[row][col]  into the set
get new set size
continue until below condition....
}while (set.size()<P(9,9);  // can not do this... since these are permutations if sudoku not met...
// but at same time, it has to explore every single one.....


3 x 3 grids (9 total) filled into   9 x 9 grid    int[this will go from 0-8][value from  0-8]  (need to think about this!!)
                                                                                [between 0-2,  3-5,  6-8] [between 0-2,  3-5,  6-8]

//This will be the natural partitions of the set entries....
0-2
3-5
6-8

Checking at each time that the rows and columns do not contain duplicate numbers.....

Print out the grid to end user......

// this showing that it has placed all small 9 grids inside....
} while (!gridFull)
}  end for

*/
    }
    
    
    public void fill9x9(Map<Integer, int[][]> mp)
    {
      
        
        
        /*
        pseudo
        do
{

                                                                         col=0  col=1 col=2
start any one of the 3x3 grids in position [0,0]       of the      row=0[3x3] [3x3] [3x3]
                                                                   row=1[3x3] [3x3] [3x3]
                                                                   row=2[3x3] [3x3] [3x3]

*remove it from lst (it is removed since it is believed the 3x3 grid can not be replicated)..  and randomnly *pick another 3x3 grid... 
*Check if it can go at [0,1]
*if it can, then remove it from lst (since not possible for the grid to go elsewhere).....
*randomnly pick next one from lst.. check if it can go in position [0,2]
*keep going until gridisFull (9x9)
* store the grid...


*next time around.. item that was [0,1] can not go back in same place....
start process again until grid is full

}while(permutations<UNKNOWN>    // this means that once it has exceeded set number of permutations, it will                                    end.
*/      
        
        Collection<int[][]> col = mp.values();  // this will store all the values.....
        int temp[][];
        int totalNumbersProcessed=1;
        
        
        //Since I am so familiar with working with lists and all the entries in HashMap are unique and it 
        //consists of int[][] which is the most workable for exercise, I will put all the map values and add it into
        //a list
        List <int[][]> lt = new ArrayList<>(mp.values());
        Set <int[][]> st = new HashSet<>(mp.values());
        
        
        
        // This i10 just a quick lambda validation that there is a key and expected entry for number keys
        mp.forEach((key, value) -> System.out.println(key + " : " + value));
        
        
        // we know it has added all map.values() in set and also list...
        
        int rowCount=0;   //used for small 3x3 grid
        int colCount=0;   //used for small 3x3 grid
        boolean ReachEndColMiniGrid=false;
        
        int rowIndex=0;   
        int colIndex=0;
        int offset=0;
        int i=0;
        int numbersProcessed3x3=0;
        
        //all values in mini grid to be inserted into top left corner...
            // this now functions for first row in 9 x 9
            //need to introduce logic to start for next!!
            
        //**** need to identify where logic will change ***
        /*
        
        N N N N N N N N N
        N N N N N N N N N
        N N N N N N N N N
        X 0 0 0 0 0 0 0 0
        0 0 0 0 0 0 0 0 0
        0 0 0 0 0 0 0 0 0
        0 0 0 0 0 0 0 0 0
        0 0 0 0 0 0 0 0 0
        0 0 0 0 0 0 0 0 0
        
        The new starting position is no longer [0,0] it is [0,3]  [colIndex, rowIndex]
        Unsure what other logic will change with code?
        */
        
        boolean condition1=false;
        boolean condition2=false;
        boolean condition3=false;
        
        System.out.println("***CHECKING PROPER LIST:");
        //for (int i=0; i<miniGridContainer[0][0].length(); i++)  //using 10 mini grids  for now testing
        //since unsure how to get length of 3d array, will place value manually.
        
        //need to figure out why its not incrementing...
        
        
        do
        {
            System.out.println("RETURNING HERE^^^^^^^^^^$£^£^£$^£$^$£^£^");
            System.out.println(i);
            
            
        //for (int i=0; i<mp.size();i++)     // me being a idiot.... since the key stored was newsize, and 
                                           //this started at 1... so mp.get(1) is the first entry...
                                        
        
        //for (int i=0; i<15; i++)  //using 10 mini grids  for now testing
        
        {
            //temp=mp.get(i);
            temp=mp.get(i+1); // use this when accessing map...
             // this is int[][] array containing the first mini grid...
            //temp = miniGridContainer[i];  //hoping this will get the 2d array stored here....
            //temp= temp = lt.get(i);
            
            
             //System.out.println("^^&&^^^^! size 3x3 grid: **********" + temp.length);
            
            
            //board is 9x9 so it will end properly....
            if (totalNumbersProcessed<=81)
            {
            //needs to complete these only once at start to initialise these.
            //not each time otherwise it will affect the entire code..
            //this is a total improvised technique never tried before..
            //but the if statements appear to lock the blocks so that it can only occur once
    
            
            //it will go in once since it locks condition2 and condition 3
            //processing [0,0] => [2,8]    27 items
            
            if (totalNumbersProcessed<=27 && !condition2 && !condition3)
            {
                System.out.println("ONCE!!!! Condition1");
                rowIndex=0;     //[0,0]
                colIndex=0;
                condition1=true;
                condition2=true;
                condition3=true;
                
            }
            
            //once it has has reached number 28, ready start [3,0] => [5,8]  54 items...
            //condition 1 and 3 will be set to false, so it will be locked!
            
            if (totalNumbersProcessed<=54 && totalNumbersProcessed>27 && condition1 && condition3)
            {
                System.out.println("ONCE!!!! Condition2");
                rowIndex=3;  //[3,0];
                colIndex=0;
                condition2=true;
                condition1=false;
                condition3=false;
            }
            
            //once it has has reached number 55, ready start [5,0] => [8,8]  81 items....
            //leaving condition3=false and condition2=false will ensure that
            //once totalNumbersProcessed<=27,  it can enter the first if statement.....
            if (totalNumbersProcessed<=81 && totalNumbersProcessed>54 && condition2 && !condition1)
            {
                System.out.println("ONCE!!!! Condition3");
                rowIndex=6;  // [6,0]
                colIndex=0;
                condition3=false;
                condition1=true;
                condition2=false;
                
            }
            
           
            
            
         
         System.out.println("\n******This is picking list item:" + i+1);
         System.out.println("*****************************************");
         
            ReachEndColMiniGrid=false;
            
            
// *********************
//At moment, once it finishes the first correctly at (2,2)

/*
1 1 1 X 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 X 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
*/

// The next list item should be stored in  (0,3)  - it should be stored here
// current logic is taking it here... (2,3)  as expected......
//There is no logic in the coding currently telling it to return back here....

//in first last 3 x 3 grid it finished at  (2,2)
//so clearly the rowIndex (of 9x9) has not reset to 0....

//once it has processed 9 numbers, the row index always goes back to  0,3, 6
//it will go to 0 if it is processing first 3 list items (0,1,2 zero index based).
//it will go to 3 if it is processing next 3 list items (3,4,5 zero index based).
//it will go to 6 if it is processing next 3 list items (6,7,8 zero index based).

/*
It now resolves the issue and writes content from (0,3) to (0,5) for the 2nd list item....

1 1 1 X 0 ! 0 0 0
! 0 0 ! 0 0 0 0 0
0 0 X 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0 0 0 0

after(0,5) it needs to go to (1,3)     - since colIndex 3 is the new starting point...
it is currently going into  (1,0)  - this is similar to it starting the 2nd row  for the 1st list item...
//logic is somewhere in the code once it has realised that rowCount has reached 2
*/


if (numbersProcessed3x3==9)
{
    System.out.println("DECISION");
if (i==0 || i==1 || i==2)
{
    System.out.println("DECISION1");
    
    rowIndex=0;
    
}

if (i==3 || i==4 || i==5)
{
    rowIndex=3;
    
}

if (i==6 || i==7 || i==8)
{
    rowIndex=6;
    
}

}


numbersProcessed3x3=0;
nineByNineBoardNumber=1;

            System.out.println("MUST HERE FUCKING");
            //for (int n=0; n<temp.length;n++ )  // this will go through each row of the 3 x 3  (0-2)(0-2)
            for (int n=0; n<temp.length;n++ )  // this will go through each row of the 3 x 3  (0-2)(0-2)
            
            
            {
                
               
                System.out.println("value of n: " + n);
                System.out.println("Value colcount993: "  + colCount);
                
                if (colCount>=2 && rowCount!=2)  // if it reaches last number of row mini grid in first row
                {
                    System.out.println("Current colcount 3x3: " + colCount);
                    System.out.println("Current rowcount 3x3: " + rowCount);
                    
                    rowCount++;   // it starts new row of mini grid...
                    colCount=0;   // it starts again at column 0 mini grid
                    
                    
                    //ut would also have to start new row on big grid..
                    // for second row of 3x3
                    
                    rowIndex++;
                    
                    //it would only start colIndex if  offset is also equal to 0
                    //this would be the case for 1st 3x3 grid.... in each row.....
                    if (offset==0)
                    {
                        colIndex=0;
                    }
                    else
                    {
                        colIndex=offset;
                    }
                    
                    
                  
                    //IT HAS REACHED THE LAST COLUMN BIG GRID..  COLINDEX8..
                    //IN THIS CASE, IT HAS TO reset back to start new row
                    //IT SHOULD HIT THIS POINT WHEN numbersprocessed has hit 9...
                    
                    
                        //it has to also start again on big grid
                        //but this time it moves down 3 places from [0,0] no to overwrite any data....
                        
                      
                    if (colIndex==8 && numbersProcessed3x3==9)
                    {
                        colIndex=0;
                        rowIndex=rowIndex+3;
                        ReachEndColMiniGrid=true;  //sets flag
                        
                    }
                    
                    //if it hasn't reached the last column on 9x9
                    //and it has processed entire 3 x 3 mini grid...
                    //The next grid is adjacent....
                    // There is no bearing on 
                    
                    
                    if (colIndex!=8 && numbersProcessed3x3==9)
                    {
                        System.out.println("**********************BACK HERE!");
                        colIndex=colIndex+1;
                        rowIndex=0;
                        
                    }
                    
                    
                }
                    //it is uniform array, so can use temp[0]
                for (int k=0; k<temp[0].length;k++)  // this will then go through each column in row....
                {
                    
                    numbersProcessed3x3++;
                    
                    
                    //this has to keep track of the offset in the colIndex (9 by 9 grid)
                    //otherwise when it starts the next row, it will take the colIn
                    if (k==0)
                    {
                        offset=colIndex;
                        
                    }
                    System.out.println("Selecting grid " + i +" from : "+ mp.size());
                    System.out.println("\nis it total numbers processed so far: " + totalNumbersProcessed + "out of 81");        
                    System.out.println("$$$$$$$$$$$$$$Current offset in 9x9 grid: " + offset);
                    System.out.println("*****Starting in this col in 9 x 9: " + colIndex);
                    System.out.println("numbersProcessed: " + numbersProcessed3x3);
                    System.out.println("Total numbers processed: " + totalNumbersProcessed);
                    
                    System.out.println("The current coordinate:" + rowCount);
                    System.out.println("The current coordinate:" + colCount);
                    
                    //colindex is wrong for the second list item....
                    //in first row, its fine since it is set to +1 pos from last grid.
                    //when the row has increased, the column has gone to 0, need to change this logic...
                    
                    System.out.println("Following number: " + temp[rowCount][colCount]);
                    
                    System.out.println("being stored at index: " + rowIndex + " " + colIndex);
                    System.out.println("currently processing this from 3 x 3:" + "(" + rowCount + "," +colCount+")");
                    
                    System.out.println(nineByNineBoardNumber);
                    System.out.println(rowIndex);
                    System.out.println(colIndex);
                     System.out.println(rowCount);
                      System.out.println(colCount);
                    
                    
                    //nineByNine[rowIndex][colIndex]=miniGridContainer[i][rowCount][colCount];
                    //nineByNine[rowIndex][colIndex]=miniGridContainer[i][rowCount][colCount];
                    
                    nineByNine[rowIndex][colIndex]=temp[rowCount][colCount];
                    
                    
                    //System.out.println(nineByNine[nineByNineBoardNumber][rowIndex][colIndex] + " at " +  "("+rowIndex+","+colIndex+")");
                    
                    
                    //System.out.println("Final ready column: " + colIndex);
                    
                    
                    colCount++;  //moves forwad position on 3 x 3
                    
                    colIndex++;  //moves forward position on the main 9 x 9
                    
                    if (numbersProcessed3x3==9)   //if it has done all avlues in 3x3
                    {
                        colCount=0;   //starts again in 3x3
                        rowCount=0; //starts again in 3x3
                        
                        
                    }
                    
                    if (totalNumbersProcessed!=0 && totalNumbersProcessed%9==0)
                        {
                            //this is indication that it has finished a 3 x 3 grid....
                            //it has to be done before the incrementing of totalNumbersProcessed
                            i++;
                            
                        }
                        
                        //indication that it has filled 9 x 9
                         if (totalNumbersProcessed%81==0)
                        {
                            
                            nineByNineBoardNumber++;
                            System.out.println("\nonto Board Number: " + nineByNineBoardNumber);
                            
                            // THIS IS MY PROBLEM NOW!!!!
                            // WHERE SHOULD I STORED THE COMPLETED BOARDS.....
                            //DECIDING IN A MAP FOR NOW!!!!
                            
                            completedBoards.put(numComplete9x9Boards,nineByNine);
                            numComplete9x9Boards++;
                            totalNumbersProcessed=0;  // starting again......
                            i=0;
                            wipe9x9Board();
                            
                            //nbn[nineByNineBoardNumber] = new nineByNine();
                            
                        }
                        
                        
                        
                    
                    totalNumbersProcessed++;
                    
                    
                }  //end for loop  to go through  columns in each row
                
                        }   //end for loop for each row
                        
                        
                        
                       
                        
                        
                System.out.println("%$£%$£%$£%%%%%%%%%%%%%%%%%%%%%%%%%%%%");
                System.out.println("%$£%$£%$£%%%%%%%%%%%%%%%%%%%%%%%%%%%%");
                System.out.println("%$£%$£%$£%%%%%%%%%%%%%%%%%%%%%%%%%%%%");
                System.out.println("%$£%$£%$£%%%%%%%%%%%%%%%%%%%%%%%%%%%%");
                
            } 
        
        
    }
    
        }while(i<=mp.size()); //end for loop iterate throug map
            // i is incrementing each time it has finished a 3x3 grid....
            // is is the 
    }
    
    public boolean checkUniqueRows()
    {
        return false;
        
    }
    public boolean checkUniqueColumns()
    {
        return false;
        
    }
    public void place3X3Into9x9()
    {
        
    }
    public boolean SudokuComplete()
    {
        return false;
        
    }
    
    public void get9x9Grid()
    {
        //All values are stored in here
        //At moment is has just put consecutive 3x3 grids stored in here:
        //nineByNine
        
        System.out.println("*****filled grid****** - Testing original MiniGridContainer - FAIL");
        
        for (int[][]row: miniGridContainer)
        {
            for (int[] h:row)
            {
            System.out.println(Arrays.asList(h));
        }
        
        }
        
        System.out.println("Trying to print first 3x3 grid in 9x9 grid");
        System.out.println(miniGridContainer[0][0][0] + miniGridContainer[0][0][1] + miniGridContainer[0][0][2]);
        System.out.println(miniGridContainer[0][1][0] + miniGridContainer[0][1][1] + miniGridContainer[0][1][2]);
        System.out.println(miniGridContainer[0][2][0] + miniGridContainer[0][2][1] + miniGridContainer[0][2][2]);
        
        
        /*
        System.out.println("*****filled grid****** - Testing 9x9 board -ArrayList FAIL");
        
        for (int i[]:nineByNine)
        {
            System.out.println(Arrays.asList(i));
        }
        */
        
        
        /*
        System.out.println("*****filled grid****** - Testing 9x9 board -EACH NUMBER into string joiner!!!");
        Character convert;
        String convert1;
        
        for (int i=0; i<nineByNine.length;i++)
        {
            sj = new StringJoiner(",");
            
            for (int k=0; k<nineByNine[0].length;i++)
            {
                System.out.println("Numbers in row : " + i + "  " + nineByNine[i][k]);
                
            }
            
            System.out.println(sj.toString());
        }
        */
        
        
        
        
        
        
        
        
    }
    
    //for some fucking reason, the set is not getting bigger..
    
    public void get3x3Grid()
    {
        miniGridContainer = new int[mp.size()][3][3];
        int m=0;
        
        
        //System.out.println("***********");
        
        //this will get out all the 3x3 grids from the permutations.....
        int i=0;
        if (mp.containsKey(newSize))
        {
            miniGrid = mp.get(newSize);    //minigrid is of type int[][]
            
            //it might be worth putting all this in a 3D array...
            //so the first index can act as unique identifier:
            
            i++;
            
            
            
            
            
            //mp.getKey()
            
            //at this point in might be worth calling fall 9x9 grid
            //now it has reached this...  P (362880,9)
            //n will the unique key...
            
        }
        
        //System.out.println("This should be same in map:");
        //this will print out all the rows.....
        
        System.out.println("FULLY FUNCTIONAL PRINTING THE ARRAY TO STRING");
        for (int[] g :miniGrid)
        {
            //System.out.println("!!!!!This is the key: " + mp.getKey(newSize));
            System.out.println(Arrays.toString(g));
        }
        
        System.out.println("&*^%^%$^$%^PRINTNG THE MINIGRID MANUALLY - FAIL");
        
         System.out.println(miniGrid[0][0] + miniGrid[0][1] + miniGrid[0][2]);
        System.out.println(miniGrid[1][0] + miniGrid[1][1] + miniGrid[1][2]);
        System.out.println(miniGrid[2][0] + miniGrid[2][1] + miniGrid[2][2]);
        
        
        
        
        
        int p=0;
        int k=0;
        int pos=0;
        
        //System.out.println("This should be same in map:");
        //this will print out all the rows.....
        
        System.out.println("------------This is now adding each integer manually in 3d array FAILING:");    
        for (int[] g :miniGrid)   //each row
        {
            k=0;
            
            //System.out.println(Arrays.toString(g));
            
            //now need to get each int...
        
            for (int j:g)
            {
                //filling 3d array...
                
                
                miniGridContainer[m][p][k]=j;
                
                if (k==2)
                {
                    k=0;
                    
                }
                else
                {
                k++;
                }
                
            }
            p++;
        
       
        
            
            //System.out.println("!!!!!This is the key: " + mp.getKey(newSize));
            
        }
        
        System.out.println("------------Expecting this to be same as above if stored properly in 3d array:");    
        System.out.println(miniGridContainer[pos][0][0] + miniGridContainer[pos][0][1] + miniGridContainer[pos][0][2]);
        System.out.println(miniGridContainer[pos][1][0] + miniGridContainer[pos][1][1] + miniGridContainer[pos][1][2]);
        System.out.println(miniGridContainer[pos][2][0] + miniGridContainer[pos][2][1] + miniGridContainer[pos][2][2]);
        
        
        pos++;
        
        
        
        System.out.println("-----adding each integer manually in 3d array full loop:");
        
        MiniTest = new int[3][3];
        
        for (i=0;i<miniGrid.length;i++)
        {
            for (int j=0; j<miniGrid[0].length;j++)
            {
                MiniTest[i][j]=miniGrid[i][j];
                
            
        }
        }
        
        System.out.println("PLEASE BE SAME AS ABOVE MATRIX - FAILS");
        System.out.println(MiniTest[0][0] + MiniTest[0][1] + MiniTest[0][2]);
        System.out.println(MiniTest[1][0] + MiniTest[1][1] + MiniTest[1][2]);
        System.out.println(MiniTest[2][0] + MiniTest[2][1] + MiniTest[2][2]);
        
        
        
        //miniGridContainer[][][]=miniGrid;
        
        // since set has got an  int[][] it will need a nested solution to get value back
        // for each row, go through all the columns.....
        
        // this is just to test that it can reach the grid correctly,
        // this is easiest route to allow it traverse the set....
        
        
        // can imagine this being huge problem in future.
        //since there is no get by index.....
        // this will potential mean the amount of screen output will be very limited..
        // since it will have show entirety!!!
        //very similar to StringTokenizer!!!! and no point taking content and storing elsewhere...
        //Perhaps it can be added into Map at future point only once its fully populated with all permutations...
        // This will then allow it to use the containskey method...
        
        
     m++;       
    }
}
    
            
            //System.out.println(t[0][0]);
            //System.out.println(t[0][1]);


public class Permutation
{
public static void main(String[] args) {
System.out.println("Welcome to Online IDE!! Happy Coding :)");
int originalNumber=9;
int n=originalNumber;
int r =9;
Map <Integer, Long> m = new HashMap<>();
System.out.println("***PERMUTATIONS***");
System.out.println("P(n,r) = n! / (n−r)!");
System.out.println("P(" + n+","+r+") = " + n+"!" + " / " + "("+n+"-"+r+")!");

Sudoku sud = new Sudoku (Permutations (n,r,originalNumber, m));


//System.out.println(Permutations (n,r,originalNumber, m));
}
public static long Permutations (int n, int r, int originalNumber, Map factorialResults)
{
// n are objects
// r is sample
/*
***CALCULATION***
P(n,r) = n! / (n−r)!
*/
long result=0;
int temp;
int denominator;
if (originalNumber<r || r<0)
{
System.out.println("please enter n ≥ r ≥ 0");
System.exit(0);
return 0;
}
if (n>=1)
{
// EXAMPLE
// P (5,6) = 5* 4 * 3 * 2 * 1 / (6-5)! = 24 / 2! = 24 / 2 * 1 = 24/2 = 12
result = (n* (Permutations (n-1, r,originalNumber, factorialResults))); // this completes factorial for numerator
factorialResults.put(n,result); //result stored in the Map
//System.out.println("getting result back out numerator " + n+": " + factorialResults.get(n));
if (n==originalNumber) // this will occur once
{
denominator = originalNumber-r; // originalNumber required since n has reduced as part of the recursive calls
//System.out.println("This is denominator: " + denominator);
// this is using the Java Memoization technique to ensure the factorial outcome is not calculated again, to save program execution cycles.
// since the returns are done in reverse order.... n = 1 is processed first and n=6 last...
//Hence in practice there will be entry in Map for all factorials, ready for the denominator..
if (factorialResults.containsKey(denominator))
{
//System.out.println("here");
//System.out.println("This is exact value of factorial denominator " + (denominator) + " : " + factorialResults.get(denominator));
return result / (long)factorialResults.get(denominator); // this is number permutations
}
}
return result; // this will be returning already calculating numerator part
}
return 1; // // it should reach here if this is false: (n>=1) }
}
}