// ------------------------------------------------------------------------- public void test_delta() { double computed = OPTION_PRICER.deltaStickyStrike(FUTURE_OPTION_PRODUCT, RATE_PROVIDER, VOL_PROVIDER); double futurePrice = FUTURE_PRICER.price(FUTURE_OPTION_PRODUCT.getUnderlying(), RATE_PROVIDER); double strike = FUTURE_OPTION_PRODUCT.getStrikePrice(); double expiryTime = ACT_365F.relativeYearFraction(VALUATION_DATE, FUTURE_OPTION_PRODUCT.getExpiryDate()); double logMoneyness = Math.log(strike / futurePrice); double vol = SURFACE.zValue(expiryTime, logMoneyness); double expected = BlackFormulaRepository.delta(futurePrice, strike, expiryTime, vol, true); assertEquals(computed, expected, TOL); }
/** Calculate the true SABR delta and gamma and compare with that found by finite difference */ @Test(enabled = false) public void testGreeks() { double eps = 1e-3; double f = 1.2; double k = 1.4; double t = 5.0; double alpha = 0.3; double beta = 0.6; double rho = -0.4; double nu = 0.4; SabrFormulaData sabrData = SabrFormulaData.of(alpha, beta, rho, nu); ValueDerivatives adj = FUNCTION.getVolatilityAdjoint(f, k, t, sabrData); double bsDelta = BlackFormulaRepository.delta(f, k, t, adj.getValue(), true); double bsVega = BlackFormulaRepository.vega(f, k, t, adj.getValue()); double volForwardSense = adj.getDerivative(1); double delta = bsDelta + bsVega * volForwardSense; SabrFormulaData data = SabrFormulaData.of(alpha, beta, rho, nu); double volUp = FUNCTION.getVolatility(f + eps, k, t, data); double volDown = FUNCTION.getVolatility(f - eps, k, t, data); double priceUp = BlackFormulaRepository.price(f + eps, k, t, volUp, true); double price = BlackFormulaRepository.price(f, k, t, adj.getValue(), true); double priceDown = BlackFormulaRepository.price(f - eps, k, t, volDown, true); double fdDelta = (priceUp - priceDown) / 2 / eps; assertEquals(fdDelta, delta, 1e-6); double bsVanna = BlackFormulaRepository.vanna(f, k, t, adj.getValue()); double bsGamma = BlackFormulaRepository.gamma(f, k, t, adj.getValue()); double[] volD1 = new double[5]; double[][] volD2 = new double[2][2]; FUNCTION.getVolatilityAdjoint2(f, k, t, sabrData, volD1, volD2); double d2Sigmad2Fwd = volD2[0][0]; double gamma = bsGamma + 2 * bsVanna * adj.getDerivative(1) + bsVega * d2Sigmad2Fwd; double fdGamma = (priceUp + priceDown - 2 * price) / eps / eps; double d2Sigmad2FwdFD = (volUp + volDown - 2 * adj.getValue()) / eps / eps; assertEquals(d2Sigmad2FwdFD, d2Sigmad2Fwd, 1e-4); assertEquals(fdGamma, gamma, 1e-2); }