Question
How to implement this 9 puzzle to check it is solvable or not? Input data looks like following 0 2 7 6 5 4 3
How to implement this 9 puzzle to check it is solvable or not?
Input data looks like following
0 2 7 6 5 4 3 1 8
/* This template includes some testing code to help verify the implementation. Input boards can be provided with standard input or read from a file. To provide test inputs with standard input, run the program with java NinePuzzle To terminate the input, use Ctrl-D (which signals EOF). To read test inputs from a file (e.g. boards.txt), run the program with java NinePuzzle boards.txt The input format for both input methods is the same. Input consists of a series of 9-puzzle boards, with the '0' character representing the empty square. For example, a sample board with the middle square empty is 1 2 3 4 0 5 6 7 8 And a solved board is 1 2 3 4 5 6 7 8 0 An input file can contain an unlimited number of boards; each will be processed separately. B. Bird - 07/11/2014 M. Simpson - 11/07/2015 */
import java.util.Scanner; import java.io.File;
public class NinePuzzle{
//The total number of possible boards is 9! = 1*2*3*4*5*6*7*8*9 = 362880 public static final int NUM_BOARDS = 362880;
/* SolveNinePuzzle(B) Given a valid 9-puzzle board (with the empty space represented by the value 0),return true if the board is solvable and false otherwise. If the board is solvable, a sequence of moves which solves the board will be printed, using the printBoard function below. */ public static boolean SolveNinePuzzle(int[][] B){ /* ... Your code here ... */ return false; } /* printBoard(B) Print the given 9-puzzle board. The SolveNinePuzzle method above should use this method when printing the sequence of moves which solves the input board. If any other method is used (e.g. printing the board manually), the submission may lose marks. */ public static void printBoard(int[][] B){ for (int i = 0; i < 3; i++){ for (int j = 0; j < 3; j++) System.out.printf("%d ",B[i][j]); System.out.println(); } System.out.println(); } /* Board/Index conversion functions These should be treated as black boxes (i.e. don't modify them, don't worry about understanding them). The conversion scheme used here is adapted from W. Myrvold and F. Ruskey, Ranking and Unranking Permutations in Linear Time, Information Processing Letters, 79 (2001) 281-284. */ public static int getIndexFromBoard(int[][] B){ int i,j,tmp,s,n; int[] P = new int[9]; int[] PI = new int[9]; for (i = 0; i < 9; i++){ P[i] = B[i/3][i%3]; PI[P[i]] = i; } int id = 0; int multiplier = 1; for(n = 9; n > 1; n--){ s = P[n-1]; P[n-1] = P[PI[n-1]]; P[PI[n-1]] = s; tmp = PI[s]; PI[s] = PI[n-1]; PI[n-1] = tmp; id += multiplier*s; multiplier *= n; } return id; } public static int[][] getBoardFromIndex(int id){ int[] P = new int[9]; int i,n,tmp; for (i = 0; i < 9; i++) P[i] = i; for (n = 9; n > 0; n--){ tmp = P[n-1]; P[n-1] = P[id%n]; P[id%n] = tmp; id /= n; } int[][] B = new int[3][3]; for(i = 0; i < 9; i++) B[i/3][i%3] = P[i]; return B; }
public static void main(String[] args){ /* Code to test your implementation */ /* You may modify this, but nothing in this function will be marked */
Scanner s;
if (args.length > 0){ //If a file argument was provided on the command line, read from the file try{ s = new Scanner(new File(args[0])); } catch(java.io.FileNotFoundException e){ System.out.printf("Unable to open %s ",args[0]); return; } System.out.printf("Reading input values from %s. ",args[0]); }else{ //Otherwise, read from standard input s = new Scanner(System.in); System.out.printf("Reading input values from stdin. "); } int graphNum = 0; double totalTimeSeconds = 0; //Read boards until EOF is encountered (or an error occurs) while(true){ graphNum++; if(graphNum != 1 && !s.hasNextInt()) break; System.out.printf("Reading board %d ",graphNum); int[][] B = new int[3][3]; int valuesRead = 0; for (int i = 0; i < 3 && s.hasNextInt(); i++){ for (int j = 0; j < 3 && s.hasNextInt(); j++){ B[i][j] = s.nextInt(); valuesRead++; } } if (valuesRead < 9){ System.out.printf("Board %d contains too few values. ",graphNum); break; } System.out.printf("Attempting to solve board %d... ",graphNum); long startTime = System.currentTimeMillis(); boolean isSolvable = SolveNinePuzzle(B); long endTime = System.currentTimeMillis(); totalTimeSeconds += (endTime-startTime)/1000.0; if (isSolvable) System.out.printf("Board %d: Solvable. ",graphNum); else System.out.printf("Board %d: Not solvable. ",graphNum); } graphNum--; System.out.printf("Processed %d board%s. Average Time (seconds): %.2f ",graphNum,(graphNum != 1)?"s":"",(graphNum>1)?totalTimeSeconds/graphNum:0);
}
}
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