@Override public DoubleMatrix2D getInitializedMatrix( final Function1D<DoubleMatrix1D, DoubleMatrix2D> jacobianFunction, final DoubleMatrix1D x) { Validate.notNull(jacobianFunction); Validate.notNull(x); final DoubleMatrix2D estimate = jacobianFunction.evaluate(x); final DecompositionResult decompositionResult = _decomposition.evaluate(estimate); return decompositionResult.solve( DoubleMatrixUtils.getIdentityMatrix2D(x.getNumberOfElements())); }
@Test public void testFirstOrderOnly() { final ParametricVaRDataBundle result = CALC.evaluate(DATA_FIRST_ORDER).get(1); final List<String> names = result.getNames(); assertEquals( names, Arrays.asList( "A_IMPLIED_VOLATILITY", "A_SPOT_PRICE", "A_INTEREST_RATE", "B_INTEREST_RATE", "B_SPOT_PRICE", "B_IMPLIED_VOLATILITY", "C_SPOT_PRICE", "C_IMPLIED_VOLATILITY", "C_IMPLIED_VARIANCE")); final Matrix<?> sensitivities = result.getSensitivities(); assertEquals(sensitivities.getClass(), DoubleMatrix1D.class); final DoubleMatrix1D v = (DoubleMatrix1D) sensitivities; assertEquals(v.getNumberOfElements(), 9); assertArrayEquals( v.getData(), new double[] { VEGA_A_1, DELTA_A_1 + DELTA_A_2, RHO_A_1 + RHO_A_2, RHO_B, DELTA_B, VEGA_B, DELTA_C, VEGA_C, VARIANCE_VEGA_C }, EPS); final Matrix<?> covariance = result.getCovarianceMatrix(); assertEquals(covariance.getClass(), DoubleMatrix2D.class); final DoubleMatrix2D m = (DoubleMatrix2D) covariance; assertEquals(m.getNumberOfRows(), 9); assertEquals(m.getNumberOfColumns(), 9); for (int i = 0; i < 9; i++) { assertArrayEquals(m.getData()[i], C2[i], EPS); } }
@Test public void testFirstOrderOnlyNoDuplicateGreeks() { final ParametricVaRDataBundle result = CALC.evaluate(A_DATA_FIRST_ORDER_1).get(1); final List<String> names = result.getNames(); assertEquals(names, Arrays.asList("A_IMPLIED_VOLATILITY", "A_SPOT_PRICE", "A_INTEREST_RATE")); final Matrix<?> sensitivities = result.getSensitivities(); assertEquals(sensitivities.getClass(), DoubleMatrix1D.class); final DoubleMatrix1D v = (DoubleMatrix1D) sensitivities; assertEquals(v.getNumberOfElements(), 3); assertArrayEquals(v.getData(), new double[] {VEGA_A_1, DELTA_A_1, RHO_A_1}, EPS); final Matrix<?> covariance = result.getCovarianceMatrix(); assertEquals(covariance.getClass(), DoubleMatrix2D.class); final DoubleMatrix2D m = (DoubleMatrix2D) covariance; assertEquals(m.getNumberOfRows(), 3); assertEquals(m.getNumberOfColumns(), 3); assertArrayEquals(m.getData()[0], C1[0], EPS); assertArrayEquals(m.getData()[1], C1[1], EPS); assertArrayEquals(m.getData()[2], C1[2], EPS); }
@Test public void test() { ParametricVaRDataBundle result = CALC.evaluate(DATA).get(1); List<String> names = result.getNames(); assertEquals( names, Arrays.asList( "A_IMPLIED_VOLATILITY", "A_SPOT_PRICE", "A_INTEREST_RATE", "B_INTEREST_RATE", "B_SPOT_PRICE", "B_IMPLIED_VOLATILITY", "C_SPOT_PRICE", "C_IMPLIED_VOLATILITY", "C_IMPLIED_VARIANCE")); Matrix<?> sensitivities = result.getSensitivities(); assertEquals(sensitivities.getClass(), DoubleMatrix1D.class); final DoubleMatrix1D v = (DoubleMatrix1D) sensitivities; assertEquals(v.getNumberOfElements(), 9); assertArrayEquals( v.getData(), new double[] { VEGA_A_1, DELTA_A_1 + DELTA_A_2, RHO_A_1 + RHO_A_2, RHO_B, DELTA_B, VEGA_B, DELTA_C, VEGA_C, VARIANCE_VEGA_C }, EPS); Matrix<?> covariance = result.getCovarianceMatrix(); assertEquals(covariance.getClass(), DoubleMatrix2D.class); final DoubleMatrix2D m = (DoubleMatrix2D) covariance; assertEquals(m.getNumberOfRows(), 9); assertEquals(m.getNumberOfColumns(), 9); for (int i = 0; i < 9; i++) { assertArrayEquals(m.getData()[i], C2[i], EPS); } result = CALC.evaluate(DATA).get(2); names = result.getNames(); assertEquals( names, Arrays.asList( "A_SPOT_PRICE", "A_IMPLIED_VOLATILITY", "A_STRIKE", "A_TIME", "B_SPOT_PRICE", "B_IMPLIED_VOLATILITY", "C_SPOT_PRICE", "C_IMPLIED_VOLATILITY", "A_YIELD")); sensitivities = result.getSensitivities(); assertEquals(sensitivities.getClass(), DoubleMatrix2D.class); final DoubleMatrix2D m1 = (DoubleMatrix2D) sensitivities; assertEquals(m1.getNumberOfRows(), 9); assertEquals(m1.getNumberOfColumns(), 9); final double[][] s = new double[][] { new double[] {GAMMA_A_1 + GAMMA_A_2, VANNA_A, 0, DELTA_BLEED_A, 0, 0, 0, 0, DUMMY_A}, new double[] {VANNA_A, VOMMA_A_1 + VOMMA_A_2, 0, 0, 0, 0, 0, 0, 0}, new double[] {0, 0, STRIKE_GAMMA_A_1, 0, 0, 0, 0, 0, 0}, new double[] {DELTA_BLEED_A, 0, 0, 0, 0, 0, 0, 0, 0}, new double[] {0, 0, 0, 0, GAMMA_B, 0, 0, 0, 0}, new double[] {0, 0, 0, 0, 0, VOMMA_B, 0, 0, 0}, new double[] {0, 0, 0, 0, 0, 0, GAMMA_C, VANNA_C, 0}, new double[] {0, 0, 0, 0, 0, 0, VANNA_C, 0, 0}, new double[] {DUMMY_A, 0, 0, 0, 0, 0, 0, 0, 0} }; for (int i = 0; i < 9; i++) { assertArrayEquals(m1.getData()[i], s[i], EPS); } covariance = result.getCovarianceMatrix(); assertEquals(covariance.getClass(), DoubleMatrix2D.class); final DoubleMatrix2D m2 = (DoubleMatrix2D) covariance; assertEquals(m2.getNumberOfRows(), 9); assertEquals(m2.getNumberOfColumns(), 9); for (int i = 0; i < 9; i++) { assertArrayEquals(m2.getData()[i], C5[i], EPS); } }