/** * Matrix data-type. * * @author Kyler Smith, 2017 */ public class Matrix { public static void main(String[] args) { int[][] data1 = new int[0][0]; int[][] data2 = {{1, 2, 3}, {4, 5, 6}, {7, 8, 9}}; int[][] data3 = {{1, 4, 7}, {2, 5, 8}, {3, 6, 9}}; Matrix m1 = new Matrix(data1); Matrix m2 = new Matrix(data2); Matrix m3 = new Matrix(data3); System.out.println("m1 --> Rows: " + m1.getRows() + " Columns: " + m1.getColumns()); System.out.println("m2 --> Rows: " + m2.getRows() + " Columns: " + m2.getColumns()); System.out.println("m3 --> Rows: " + m3.getRows() + " Columns: " + m3.getColumns()); //check for reference issues System.out.println("m2 -->\n" + m2); data2[1][1] = 101; System.out.println("m2 -->\n" + m2); //test equals System.out.println("m2==null: " + m2.equals(null)); //false System.out.println("m3==\"MATRIX\": " + m2.equals("MATRIX")); //false System.out.println("m2==m1: " + m2.equals(m1)); //false System.out.println("m2==m2: " + m2.equals(m2)); //true System.out.println("m2==m3: " + m2.equals(m3)); //false //test operations (valid) System.out.println("2 * m2:\n" + m2.scale(2)); System.out.println("m2 / 2:\n" + m2.divide(2)); System.out.println("m2 + m3:\n" + m2.plus(m3)); System.out.println("m2 - m3:\n" + m2.minus(m3)); System.out.println("m2 * m3: \n"+m2.multiply(m3)); } /** * Data needs to be a deep copy as not to change the original state. */ private int[][] data; /** * Constructor for the matrix takes in a 2D array * * @param pData */ public Matrix(int[][] pData) { /** Make a deep copy of the data */ if(pData.length != 0) { int[][] newData = new int[pData.length][pData[0].length]; for(int i = 0; i < pData.length; i++) for(int j = 0; j < pData[0].length; j++) newData[i][j] = pData[i][j]; this.data = newData; } else { this.data = null; } } /** * Returns the element specified by the given location * * @param x : x cooridinate * @param y : y cooridinate * @return int : value at location */ public int getElement(int x, int y) { return data[x][y]; } /** * Returns the number of rows in the Matrix * * @return rows */ public int getRows() { if(this.data == null) return 0; return data.length; } /** * Returns the number of rows in the Matrix * * @return columns */ public int getColumns() { if(this.data == null) return 0; return data[0].length; } /** * Returns this matrix scaled by a factor. That is, computes sA where s is a * constant and A is a matrix (this object). * * @param scalar : value to scale by * @return A new matrix scaled by the scalar value */ public Matrix scale(int scalar) { int[][] newData = new int[this.data.length][this.data[0].length]; for (int i = 0; i < this.getRows(); ++i) for(int j = 0; j < this.getColumns(); ++j) newData[i][j] = this.data[i][j] * scalar; return new Matrix(newData); } /** * Returns this matrix scaled by a factor. That is, computes sA where s is a * constant and A is a matrix (this object). * * @param scalar : value to scale by * @return A new matrix scaled by the scalar value */ public Matrix divide(int scalar) { int[][] newData = new int[this.data.length][this.data[0].length]; for (int i = 0; i < this.getRows(); ++i) for(int j = 0; j < this.getColumns(); ++j) newData[i][j] = this.data[i][j] / scalar; return new Matrix(newData); } /** * Adds this matrix to another matrix. * * @param other : Matrix to be added * @return addend */ public Matrix plus(Matrix other) throws RuntimeException { int[][] newData = new int[this.data.length][this.data[0].length]; if(this.getRows() != other.getRows() || this.getColumns() != other.getColumns()) throw new RuntimeException("Not the same size matrix."); for (int i = 0; i < this.getRows(); ++i) for(int j = 0; j < this.getColumns(); ++j) newData[i][j] = this.data[i][j] + other.getElement(i, j); return new Matrix(newData); } /** * Subtracts this matrix from another matrix. * * @param other : Matrix to be subtracted * @return difference */ public Matrix minus(Matrix other) throws RuntimeException { int[][] newData = new int[this.data.length][this.data[0].length]; if(this.getRows() != other.getRows() || this.getColumns() != other.getColumns()) throw new RuntimeException("Not the same size matrix."); for (int i = 0; i < this.getRows(); ++i) for(int j = 0; j < this.getColumns(); ++j) newData[i][j] = this.data[i][j] - other.getElement(i, j); return new Matrix(newData); } /** * Multiplies this matrix with another matrix. * * @param other : Matrix to be multiplied with * @return product */ public Matrix multiply(Matrix other) throws RuntimeException { int[][] newData = new int[this.data.length][other.getColumns()]; if(this.getColumns() !=other.getRows()) throw new RuntimeException("The two matrices cannot be multiplied."); int sum; for (int i = 0; i < this.getRows(); ++i) for(int j = 0; j < other.getColumns(); ++j){ sum = 0; for(int k=0;k