import java.util.Random;
import org.testng.annotations.Test;
+import org.testng.internal.junit.ArrayAsserts;
public class MatrixTest
{
+ final static double DELTA = 0.0001d;
+
@Test(groups = "Timing")
public void testPreMultiply_timing()
{
* 1x3 times 3x1 is 1x1
* 2x5 + 3x6 + 4*7 = 56
*/
- Matrix m3 = m2.preMultiply(m1);
- assertEquals(m3.rows, 1);
- assertEquals(m3.cols, 1);
- assertEquals(m3.value[0][0], 56d);
+ MatrixI m3 = m2.preMultiply(m1);
+ assertEquals(m3.height(), 1);
+ assertEquals(m3.width(), 1);
+ assertEquals(m3.getValue(0, 0), 56d);
/*
* 3x1 times 1x3 is 3x3
*/
m3 = m1.preMultiply(m2);
- assertEquals(m3.rows, 3);
- assertEquals(m3.cols, 3);
- assertEquals(Arrays.toString(m3.value[0]), "[10.0, 15.0, 20.0]");
- assertEquals(Arrays.toString(m3.value[1]), "[12.0, 18.0, 24.0]");
- assertEquals(Arrays.toString(m3.value[2]), "[14.0, 21.0, 28.0]");
+ assertEquals(m3.height(), 3);
+ assertEquals(m3.width(), 3);
+ assertEquals(Arrays.toString(m3.getRow(0)), "[10.0, 15.0, 20.0]");
+ assertEquals(Arrays.toString(m3.getRow(1)), "[12.0, 18.0, 24.0]");
+ assertEquals(Arrays.toString(m3.getRow(2)), "[14.0, 21.0, 28.0]");
}
@Test(
private boolean matrixEquals(Matrix m1, Matrix m2) {
- return Arrays.deepEquals(m1.value, m2.value);
+ if (m1.width() != m2.width() || m1.height() != m2.height())
+ {
+ return false;
+ }
+ for (int i = 0; i < m1.height(); i++)
+ {
+ if (!Arrays.equals(m1.getRow(i), m2.getRow(i)))
+ {
+ return false;
+ }
+ }
+ return true;
}
@Test(groups = "Functional")
* (3020 30200)
* (5040 50400)
*/
- Matrix m1 = new Matrix(new double[][] { { 2, 3 }, { 4, 5 } });
- Matrix m2 = new Matrix(new double[][] { { 10, 100 }, { 1000, 10000 } });
- Matrix m3 = m1.postMultiply(m2);
- assertEquals(Arrays.toString(m3.value[0]), "[3020.0, 30200.0]");
- assertEquals(Arrays.toString(m3.value[1]), "[5040.0, 50400.0]");
+ MatrixI m1 = new Matrix(new double[][] { { 2, 3 }, { 4, 5 } });
+ MatrixI m2 = new Matrix(new double[][] { { 10, 100 }, { 1000, 10000 } });
+ MatrixI m3 = m1.postMultiply(m2);
+ assertEquals(Arrays.toString(m3.getRow(0)), "[3020.0, 30200.0]");
+ assertEquals(Arrays.toString(m3.getRow(1)), "[5040.0, 50400.0]");
/*
* also check m2.preMultiply(m1) - should be same as m1.postMultiply(m2)
*/
m3 = m2.preMultiply(m1);
- assertEquals(Arrays.toString(m3.value[0]), "[3020.0, 30200.0]");
- assertEquals(Arrays.toString(m3.value[1]), "[5040.0, 50400.0]");
+ assertEquals(Arrays.toString(m3.getRow(0)), "[3020.0, 30200.0]");
+ assertEquals(Arrays.toString(m3.getRow(1)), "[5040.0, 50400.0]");
/*
* m1 has more rows than columns
m1 = new Matrix(new double[][] { { 2 }, { 3 } });
m2 = new Matrix(new double[][] { { 10, 100, 1000 } });
m3 = m1.postMultiply(m2);
- assertEquals(m3.rows, 2);
- assertEquals(m3.cols, 3);
- assertEquals(Arrays.toString(m3.value[0]), "[20.0, 200.0, 2000.0]");
- assertEquals(Arrays.toString(m3.value[1]), "[30.0, 300.0, 3000.0]");
+ assertEquals(m3.height(), 2);
+ assertEquals(m3.width(), 3);
+ assertEquals(Arrays.toString(m3.getRow(0)), "[20.0, 200.0, 2000.0]");
+ assertEquals(Arrays.toString(m3.getRow(1)), "[30.0, 300.0, 3000.0]");
m3 = m2.preMultiply(m1);
- assertEquals(m3.rows, 2);
- assertEquals(m3.cols, 3);
- assertEquals(Arrays.toString(m3.value[0]), "[20.0, 200.0, 2000.0]");
- assertEquals(Arrays.toString(m3.value[1]), "[30.0, 300.0, 3000.0]");
+ assertEquals(m3.height(), 2);
+ assertEquals(m3.width(), 3);
+ assertEquals(Arrays.toString(m3.getRow(0)), "[20.0, 200.0, 2000.0]");
+ assertEquals(Arrays.toString(m3.getRow(1)), "[30.0, 300.0, 3000.0]");
/*
* m1 has more columns than rows
m1 = new Matrix(new double[][] { { 2, 3, 4 } });
m2 = new Matrix(new double[][] { { 5, 4 }, { 6, 3 }, { 7, 2 } });
m3 = m1.postMultiply(m2);
- assertEquals(m3.rows, 1);
- assertEquals(m3.cols, 2);
- assertEquals(m3.value[0][0], 56d);
- assertEquals(m3.value[0][1], 25d);
+ assertEquals(m3.height(), 1);
+ assertEquals(m3.width(), 2);
+ assertEquals(m3.getRow(0)[0], 56d);
+ assertEquals(m3.getRow(0)[1], 25d);
/*
* and check premultiply equivalent
*/
m3 = m2.preMultiply(m1);
- assertEquals(m3.rows, 1);
- assertEquals(m3.cols, 2);
- assertEquals(m3.value[0][0], 56d);
- assertEquals(m3.value[0][1], 25d);
+ assertEquals(m3.height(), 1);
+ assertEquals(m3.width(), 2);
+ assertEquals(m3.getRow(0)[0], 56d);
+ assertEquals(m3.getRow(0)[1], 25d);
}
@Test(groups = "Functional")
}
}
Matrix m1 = new Matrix(in);
- Matrix m2 = m1.copy();
+ Matrix m2 = (Matrix) m1.copy();
assertTrue(matrixEquals(m1, m2));
}
// / origmat.print(System.out);
// System.out.println();
// System.out.println(" --- transpose matrix ---- ");
- Matrix trans = origmat.transpose();
+ MatrixI trans = origmat.transpose();
// trans.print(System.out);
// System.out.println();
// System.out.println(" --- OrigT * Orig ---- ");
- Matrix symm = trans.postMultiply(origmat);
+ MatrixI symm = trans.postMultiply(origmat);
// symm.print(System.out);
// System.out.println();
// }
// System.out.println();
}
+
+ @Test(groups = "Timing")
+ public void testSign()
+ {
+ assertEquals(Matrix.sign(-1, -2), -1d);
+ assertEquals(Matrix.sign(-1, 2), 1d);
+ assertEquals(Matrix.sign(-1, 0), 1d);
+ assertEquals(Matrix.sign(1, -2), -1d);
+ assertEquals(Matrix.sign(1, 2), 1d);
+ assertEquals(Matrix.sign(1, 0), 1d);
+ }
+
+ /**
+ * Helper method to make values for a sparse, pseudo-random symmetric matrix
+ *
+ * @param rows
+ * @param cols
+ * @param occupancy
+ * one in 'occupancy' entries will be non-zero
+ * @return
+ */
+ public double[][] getSparseValues(int rows, int cols, int occupancy)
+ {
+ Random r = new Random(1729);
+
+ /*
+ * generate whole number values between -12 and +12
+ * (to mimic score matrices used in Jalview)
+ */
+ double[][] d = new double[rows][cols];
+ int m = 0;
+ for (int i = 0; i < rows; i++)
+ {
+ if (++m % occupancy == 0)
+ {
+ d[i][i] = r.nextInt() % 13; // diagonal
+ }
+ for (int j = 0; j < i; j++)
+ {
+ if (++m % occupancy == 0)
+ {
+ d[i][j] = r.nextInt() % 13;
+ d[j][i] = d[i][j];
+ }
+ }
+ }
+ return d;
+
+ }
+
+ /**
+ * Verify that the results of method tred() are the same if the calculation is
+ * redone
+ */
+ @Test(groups = "Functional")
+ public void testTred_reproducible()
+ {
+ /*
+ * make a pseudo-random symmetric matrix as required for tred/tqli
+ */
+ int rows = 10;
+ int cols = rows;
+ double[][] d = getSparseValues(rows, cols, 3);
+
+ /*
+ * make a copy of the values so m1, m2 are not
+ * sharing arrays!
+ */
+ double[][] d1 = new double[rows][cols];
+ for (int row = 0; row < rows; row++)
+ {
+ for (int col = 0; col < cols; col++)
+ {
+ d1[row][col] = d[row][col];
+ }
+ }
+ Matrix m1 = new Matrix(d);
+ Matrix m2 = new Matrix(d1);
+ assertMatricesMatch(m1, m2); // sanity check
+ m1.tred();
+ m2.tred();
+ assertMatricesMatch(m1, m2);
+ }
+
+ private void assertMatricesMatch(MatrixI m1, MatrixI m2)
+ {
+ if (m1.height() != m2.height())
+ {
+ fail("height mismatch");
+ }
+ if (m1.width() != m2.width())
+ {
+ fail("width mismatch");
+ }
+ for (int row = 0; row < m1.height(); row++)
+ {
+ for (int col = 0; col < m1.width(); col++)
+ {
+ double v2 = m2.getValue(row, col);
+ double v1 = m1.getValue(row, col);
+ if (Math.abs(v1 - v2) > DELTA)
+ {
+ fail(String.format("At [%d, %d] %f != %f", row, col, v1, v2));
+ }
+ }
+ }
+ ArrayAsserts.assertArrayEquals(m1.getD(), m2.getD(), 0.00001d);
+ ArrayAsserts.assertArrayEquals(m1.getE(), m2.getE(), 0.00001d);
+ }
}