```
public class RotateMatrix {
static int index_of_rows;
static int index_of_columns;
static int number_of_rows;
static int number_of_columns;
public static void main(String[] args) {
int[][] matrix={{1 ,2 ,3 ,4 ,5 },
{6 ,7 ,8 ,9 ,10},
{11,12,13,14,15},
{16,17,18,19,20},
{21,22,23,24,25}};
index_of_rows = matrix.length -1;
index_of_columns = matrix[0].length -1;
number_of_rows = matrix.length;
number_of_columns = matrix[0].length;
RotateMatrix rm = new RotateMatrix();
rm.printGrid(matrix);//before rotation
rm.rotate360CW(matrix,rm);
}
public int[][] rotate90CW(int[][] matrix, RotateMatrix rm) {
int[][] newMatrix = new int[number_of_rows][number_of_columns];
int totalNumber = (number_of_rows) * (number_of_columns);
int[] intArray = createSingleArray(matrix,totalNumber);
int a =0;
for(int c=number_of_columns; c>=0; c--) {
for(int r=0; r<=number_of_rows; r++) {
newMatrix[r][c] = intArray[a];
a++;
}
}
rm.printGrid(newMatrix);
return newMatrix;
}
public int[] createSingleArray(int[][] matrix, int totalNumber) {
int a=0;
int[] intArray = new int[totalNumber];
for(int b=0;b<=index_of_rows; b++) {
for(int c=0; c<=index_of_columns;c++) {
intArray[a] = matrix[b][c];
a++;
}
}
return intArray;
}
public void printGrid(int[][] matrix) {
StringBuilder sb = new StringBuilder("--------------------------");
for(int i =0; i<=index_of_rows; i++) {
System.out.println(sb.toString());//print each row
sb.delete(0, sb.length());//Then clear the row and build the next
for(int j=0; j<=index_of_columns;j++) {
sb.append(matrix[i][j]+",");
}
}
System.out.println(sb.toString());
}
public int[][] rotate180CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(matrix, rm), rm);
}
public int[][] rotate270CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(matrix, rm), rm),rm);
}
public int[][] rotate360CW(int[][] matrix, RotateMatrix rm) {
return rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(rm.rotate90CW(matrix, rm),
rm),rm),rm);
}
}
```