/** ** Java Program to implement Bit MatrixThis is a Java Program to implement Bit Matrix. Here bit matrix is implemented as an array of bit sets. **/ import java.util.Scanner; import java.util.BitSet; /** class bit Matrix */ class BitMatrix { private BitSet[] bitArr; /** constructor **/ public BitMatrix(int rows, int cols) { bitArr = new BitSet[rows]; for (int i = 0; i < rows; i++) bitArr[i] = new BitSet(cols); } /** function to clear **/ public void clear() { int rows = bitArr.length; int cols = bitArr[0].size(); bitArr = new BitSet[rows]; for (int i = 0; i < rows; i++) bitArr[i] = new BitSet(cols); } /** function to clear a particular row **/ public void clear(int r) { bitArr[r].clear(); } /** function to clear a particular bit **/ public void clear(int r, int c) { bitArr[r].clear(c); } /** function to get a particular bit **/ public boolean get(int r, int c) { return bitArr[r].get(c); } /** function to set a particular bit **/ public void set(int r, int c) { bitArr[r].set(c); } /** function to OR two rows **/ public void or(int r1, int r2) { bitArr[r1].or(bitArr[r2]); } /** function to And two rows **/ public void and(int r1, int r2) { bitArr[r1].and(bitArr[r2]); } /** function to XOR two rows **/ public void xor(int r1, int r2) { bitArr[r1].xor(bitArr[r2]); } /** function to display bitset */ public void display() { System.out.println("\nBit Matrix : "); for (BitSet bs : bitArr) System.out.println(bs); System.out.println(); } } /** BitMatrixTest **/ public class BitMatrixTest { public static void main(String[] args) { Scanner scan = new Scanner(System.in); System.out.println("Bit Matrix Test\n"); System.out.println("Enter row and column dimensions"); BitMatrix bm = new BitMatrix(scan.nextInt(), scan.nextInt() ); char ch; /* Perform Bit Matrix operations */ do { System.out.println("\nBit Matrix Operations\n"); System.out.println("1. or "); System.out.println("2. and"); System.out.println("3. xor"); System.out.println("4. clear"); System.out.println("5. set"); System.out.println("6. get"); int choice = scan.nextInt(); switch (choice) { case 1 : System.out.println("Enter row1 and row2 to OR"); bm.or(scan.nextInt(), scan.nextInt() ); break; case 2 : System.out.println("Enter row1 and row2 to AND"); bm.and(scan.nextInt(), scan.nextInt() ); break; case 3 : System.out.println("Enter row1 and row2 to XOR"); bm.xor(scan.nextInt(), scan.nextInt() ); break; case 4 : System.out.println("\nBit matrix Cleared"); bm.clear(); break; case 5 : System.out.println("Enter row and column to set bit"); bm.set(scan.nextInt(), scan.nextInt() ); break; case 6 : System.out.println("Enter row and column to get bit status"); System.out.println("\nStatus : "+ bm.get(scan.nextInt(), scan.nextInt())); break; default : System.out.println("Wrong Entry \n "); break; } bm.display(); System.out.println("\nDo you want to continue (Type y or n) \n"); ch = scan.next().charAt(0); } while (ch == 'Y'|| ch == 'y'); } } /* Enter row and column dimensions 4 4 Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 5 Enter row and column to set bit 0 24 Bit Matrix : {24} {} {} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 5 Enter row and column to set bit 0 6 Bit Matrix : {6, 24} {} {} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 5 Enter row and column to set bit 1 28 Bit Matrix : {6, 24} {28} {} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 5 Enter row and column to set bit 1 5 Bit Matrix : {6, 24} {5, 28} {} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 1 Enter row1 and row2 to OR 2 0 Bit Matrix : {6, 24} {5, 28} {6, 24} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 2 Enter row1 and row2 to AND 0 3 Bit Matrix : {} {5, 28} {6, 24} {} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 3 Enter row1 and row2 to XOR 3 2 Bit Matrix : {} {5, 28} {6, 24} {6, 24} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 3 Enter row1 and row2 to XOR 3 1 Bit Matrix : {} {5, 28} {6, 24} {5, 6, 24, 28} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 6 Enter row and column to get bit status 0 3 Status : false Bit Matrix : {} {5, 28} {6, 24} {5, 6, 24, 28} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 6 Enter row and column to get bit status 1 28 Status : true Bit Matrix : {} {5, 28} {6, 24} {5, 6, 24, 28} Do you want to continue (Type y or n) y Bit Matrix Operations 1. or 2. and 3. xor 4. clear 5. set 6. get 4 Bit matrix Cleared Bit Matrix : {} {} {} {} Do you want to continue (Type y or n) n