/** * Test class for the replication method for CMS caplet/floorlet using a SABR smile with * extrapolation. */ @Test public class CapFloorCMSSABRExtrapolationRightReplicationMethodTest { private static final MulticurveProviderDiscount MULTICURVES = MulticurveProviderDiscountDataSets.createMulticurveEurUsd(); private static final IborIndex EURIBOR6M = MulticurveProviderDiscountDataSets.getIndexesIborMulticurveEurUsd()[1]; private static final Currency EUR = EURIBOR6M.getCurrency(); private static final HolidayCalendar CALENDAR = MulticurveProviderDiscountDataSets.getEURCalendar(); private static final SABRInterestRateParameters SABR_PARAMETER = SABRDataSets.createSABR1(); private static final GeneratorSwapFixedIbor EUR1YEURIBOR6M = GeneratorSwapFixedIborMaster.getInstance().getGenerator("EUR1YEURIBOR6M", CALENDAR); private static final SABRSwaptionProviderDiscount SABR_MULTICURVES = new SABRSwaptionProviderDiscount(MULTICURVES, SABR_PARAMETER, EUR1YEURIBOR6M); // Swap 5Y private static final BusinessDayConvention BUSINESS_DAY = BusinessDayConventions.MODIFIED_FOLLOWING; private static final boolean IS_EOM = true; private static final Period ANNUITY_TENOR = Period.ofYears(5); private static final ZonedDateTime SETTLEMENT_DATE = DateUtils.getUTCDate(2020, 4, 28); // Fixed leg: Semi-annual bond private static final Period FIXED_PAYMENT_PERIOD = Period.ofMonths(6); private static final DayCount FIXED_DAY_COUNT = DayCounts.THIRTY_U_360; private static final double RATE = 0.0325; private static final boolean FIXED_IS_PAYER = true; private static final AnnuityCouponFixedDefinition FIXED_ANNUITY = AnnuityCouponFixedDefinition.from( EUR, SETTLEMENT_DATE, ANNUITY_TENOR, FIXED_PAYMENT_PERIOD, CALENDAR, FIXED_DAY_COUNT, BUSINESS_DAY, IS_EOM, 1.0, RATE, FIXED_IS_PAYER); // Ibor leg: quarterly money private static final AnnuityCouponIborDefinition IBOR_ANNUITY = AnnuityCouponIborDefinition.from( SETTLEMENT_DATE, ANNUITY_TENOR, 1.0, EURIBOR6M, !FIXED_IS_PAYER, CALENDAR); // CMS coupon construction private static final IndexSwap CMS_INDEX = new IndexSwap(FIXED_PAYMENT_PERIOD, FIXED_DAY_COUNT, EURIBOR6M, ANNUITY_TENOR, CALENDAR); private static final SwapFixedIborDefinition SWAP_DEFINITION = new SwapFixedIborDefinition(FIXED_ANNUITY, IBOR_ANNUITY); private static final ZonedDateTime FIXING_DATE = ScheduleCalculator.getAdjustedDate(SETTLEMENT_DATE, -EURIBOR6M.getSpotLag(), CALENDAR); private static final ZonedDateTime ACCRUAL_START_DATE = SETTLEMENT_DATE; // pre-fixed private static final ZonedDateTime ACCRUAL_END_DATE = ScheduleCalculator.getAdjustedDate( ACCRUAL_START_DATE, FIXED_PAYMENT_PERIOD, BUSINESS_DAY, CALENDAR); private static final ZonedDateTime PAYMENT_DATE = ACCRUAL_END_DATE; private static final DayCount PAYMENT_DAY_COUNT = DayCounts.ACT_360; private static final double ACCRUAL_FACTOR = DayCountUtils.yearFraction(PAYMENT_DAY_COUNT, ACCRUAL_START_DATE, ACCRUAL_END_DATE); private static final double NOTIONAL = 10000000; // 10m private static final CouponCMSDefinition CMS_COUPON_RECEIVER_DEFINITION = CouponCMSDefinition.from( PAYMENT_DATE, ACCRUAL_START_DATE, ACCRUAL_END_DATE, ACCRUAL_FACTOR, NOTIONAL, FIXING_DATE, SWAP_DEFINITION, CMS_INDEX); private static final CouponCMSDefinition CMS_COUPON_PAYER_DEFINITION = CouponCMSDefinition.from( PAYMENT_DATE, ACCRUAL_START_DATE, ACCRUAL_END_DATE, ACCRUAL_FACTOR, -NOTIONAL, FIXING_DATE, SWAP_DEFINITION, CMS_INDEX); // Cap/Floor construction private static final double STRIKE = 0.04; private static final boolean IS_CAP = true; private static final CapFloorCMSDefinition CMS_CAP_LONG_DEFINITION = CapFloorCMSDefinition.from(CMS_COUPON_RECEIVER_DEFINITION, STRIKE, IS_CAP); private static final CapFloorCMSDefinition CMS_CAP_SHORT_DEFINITION = CapFloorCMSDefinition.from(CMS_COUPON_PAYER_DEFINITION, STRIKE, IS_CAP); private static final CapFloorCMSDefinition CMS_CAP_0_DEFINITION = CapFloorCMSDefinition.from(CMS_COUPON_RECEIVER_DEFINITION, 0.0, IS_CAP); // to derivatives private static final ZonedDateTime REFERENCE_DATE = DateUtils.getUTCDate(2010, 8, 18); private static final CouponCMS CMS_COUPON = (CouponCMS) CMS_COUPON_RECEIVER_DEFINITION.toDerivative(REFERENCE_DATE); private static final CapFloorCMS CMS_CAP_0 = (CapFloorCMS) CMS_CAP_0_DEFINITION.toDerivative(REFERENCE_DATE); private static final CapFloorCMS CMS_CAP_LONG = (CapFloorCMS) CMS_CAP_LONG_DEFINITION.toDerivative(REFERENCE_DATE); private static final CapFloorCMS CMS_CAP_SHORT = (CapFloorCMS) CMS_CAP_SHORT_DEFINITION.toDerivative(REFERENCE_DATE); // Calculators & methods private static final CapFloorCMSSABRReplicationMethod METHOD_STANDARD_CAP = CapFloorCMSSABRReplicationMethod.getDefaultInstance(); private static final CouponCMSSABRReplicationMethod METHOD_STANDARD_CPN = CouponCMSSABRReplicationMethod.getInstance(); private static final CouponCMSDiscountingMethod METHOD_DSC_CPN = CouponCMSDiscountingMethod.getInstance(); private static final double CUT_OFF_STRIKE = 0.10; private static final double MU = 2.50; private static final CapFloorCMSSABRExtrapolationRightReplicationMethod METHOD_EXTRAPOLATION_CAP = new CapFloorCMSSABRExtrapolationRightReplicationMethod(CUT_OFF_STRIKE, MU); private static final CouponCMSSABRExtrapolationRightReplicationMethod METHOD_EXTRAPOLATION_CPN = new CouponCMSSABRExtrapolationRightReplicationMethod(CUT_OFF_STRIKE, MU); // Calculators private static final PresentValueSABRSwaptionRightExtrapolationCalculator PVSSXC = new PresentValueSABRSwaptionRightExtrapolationCalculator(CUT_OFF_STRIKE, MU); private static final PresentValueCurveSensitivitySABRSwaptionRightExtrapolationCalculator PVCSSSXC = new PresentValueCurveSensitivitySABRSwaptionRightExtrapolationCalculator( CUT_OFF_STRIKE, MU); private static final PresentValueSABRSensitivitySABRSwaptionRightExtrapolationCalculator PVSSSSXC = new PresentValueSABRSensitivitySABRSwaptionRightExtrapolationCalculator( CUT_OFF_STRIKE, MU); private static final double SHIFT = 1.0E-6; private static final ParameterSensitivityParameterCalculator<SABRSwaptionProviderInterface> PS_SS_C = new ParameterSensitivityParameterCalculator<>(PVCSSSXC); private static final ParameterSensitivitySABRSwaptionDiscountInterpolatedFDCalculator PS_SS_FDC = new ParameterSensitivitySABRSwaptionDiscountInterpolatedFDCalculator(PVSSXC, SHIFT); private static final double TOLERANCE_PV = 1.0E-2; private static final double TOLERANCE_PV_DELTA = 5.0E+3; // 0.01 currency unit for 1 bp. /** * Test the present value for a CMS coupon with pricing by replication in the SABR with * extrapolation framework. The present value is tested against hard-coded value and cap of strike * 0. */ public void presentValue() { // CMS cap/floor with strike 0 has the same price as a CMS coupon. final double priceCouponStd = METHOD_STANDARD_CPN.presentValue(CMS_COUPON, SABR_MULTICURVES).getAmount(EUR).getAmount(); final double rateCouponStd = priceCouponStd / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); final double priceCouponExtra = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final double rateCouponExtra = priceCouponExtra / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); final double priceCouponNoAdj = METHOD_DSC_CPN.presentValue(CMS_COUPON, MULTICURVES).getAmount(EUR).getAmount(); final double rateCouponNoAdj = priceCouponNoAdj / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); assertEquals( "Extrapolation: comparison with standard method", rateCouponStd > rateCouponExtra, true); assertEquals( "Extrapolation: comparison with no convexity adjustment", rateCouponExtra > rateCouponNoAdj, true); final double rateCouponExtraExpected = 0.0189864; // From previous run. assertEquals("Extrapolation: hard-coded value", rateCouponExtraExpected, rateCouponExtra, 1E-6); final double priceCap0Extra = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_0, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); assertEquals( "Extrapolation: CMS coupon vs Cap 0", priceCouponExtra, priceCap0Extra, TOLERANCE_PV); } /** * Tests the price of CMS coupon and cap/floor using replication in the SABR framework. Method v * Calculator. */ public void presentValueMethodVsCalculator() { final double pvMethod = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final double pvCalculator = CMS_CAP_LONG.accept(PVSSXC, SABR_MULTICURVES).getAmount(EUR).getAmount(); assertEquals( "CMS cap/floor SABR: Present value : method vs calculator", pvMethod, pvCalculator, TOLERANCE_PV); } /** * Test the present value for a CMS cap with pricing by replication in the SABR with extrapolation * framework. The present value is tested against hard-coded value and a long/short parity is * tested. */ public void presentValueReplicationCap() { // CMS cap/floor with strike 0 has the same price as a CMS coupon. final double priceCapLongStd = METHOD_STANDARD_CAP.presentValue(CMS_CAP_LONG, SABR_MULTICURVES).getAmount(EUR).getAmount(); final double priceCapLongExtra = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final double priceCapShortExtra = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_SHORT, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); assertEquals( "CMS cap by replication - Extrapolation: comparison with standard method", priceCapLongStd > priceCapLongExtra, true); final double priceCapExtraExpected = 30696.572; // From previous run. assertEquals( "CMS cap by replication - Extrapolation: hard-coded value", priceCapExtraExpected, priceCapLongExtra, TOLERANCE_PV); assertEquals( "CMS cap by replication - Extrapolation: long/short parity", -priceCapShortExtra, priceCapLongExtra, TOLERANCE_PV); } /** * Test the present value rate sensitivity for a CMS cap with pricing by replication in the SABR * with extrapolation framework. */ public void presentValueCurveSensitivity() { final MultipleCurrencyParameterSensitivity pvpsCapLongExact = PS_SS_C.calculateSensitivity( CMS_CAP_LONG, SABR_MULTICURVES, SABR_MULTICURVES.getMulticurveProvider().getAllNames()); final MultipleCurrencyParameterSensitivity pvpsCapLongFD = PS_SS_FDC.calculateSensitivity(CMS_CAP_LONG, SABR_MULTICURVES); AssertSensitivityObjects.assertEquals( "SwaptionPhysicalFixedIborSABRMethod: presentValueCurveSensitivity ", pvpsCapLongExact, pvpsCapLongFD, TOLERANCE_PV_DELTA); final MultipleCurrencyParameterSensitivity pvpsCapShortExact = PS_SS_C.calculateSensitivity( CMS_CAP_SHORT, SABR_MULTICURVES, SABR_MULTICURVES.getMulticurveProvider().getAllNames()); final MultipleCurrencyParameterSensitivity pvpsCapShortFD = PS_SS_FDC.calculateSensitivity(CMS_CAP_SHORT, SABR_MULTICURVES); AssertSensitivityObjects.assertEquals( "SwaptionPhysicalFixedIborSABRMethod: presentValueCurveSensitivity ", pvpsCapShortExact, pvpsCapShortFD, TOLERANCE_PV_DELTA); } /** * Test the present value rate sensitivity for a CMS cap with pricing by replication in the SABR * with extrapolation framework. Method v Calculator. */ public void presentValueCurveSensitivityMethodVsCalculator() { final MultipleCurrencyMulticurveSensitivity pvcsMethod = METHOD_EXTRAPOLATION_CAP.presentValueCurveSensitivity(CMS_CAP_LONG, SABR_MULTICURVES); final MultipleCurrencyMulticurveSensitivity pvcsCalculator = CMS_CAP_LONG.accept(PVCSSSXC, SABR_MULTICURVES); AssertSensitivityObjects.assertEquals( "CMS cap/floor SABR: Present value : method vs calculator", pvcsMethod, pvcsCalculator, TOLERANCE_PV_DELTA); } /** Tests the cap present value SABR parameters sensitivity vs finite difference. */ public void presentValueSABRSensitivity() { final double pv = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final PresentValueSABRSensitivityDataBundle pvsCapLong = METHOD_EXTRAPOLATION_CAP.presentValueSABRSensitivity(CMS_CAP_LONG, SABR_MULTICURVES); // SABR sensitivity vs finite difference final double shift = 0.0001; final double shiftAlpha = 0.00001; final double maturity = CMS_CAP_LONG .getUnderlyingSwap() .getFixedLeg() .getNthPayment( CMS_CAP_LONG.getUnderlyingSwap().getFixedLeg().getNumberOfPayments() - 1) .getPaymentTime() - CMS_CAP_LONG.getSettlementTime(); final DoublesPair expectedExpiryTenor = DoublesPair.of(CMS_CAP_LONG.getFixingTime(), maturity); // Alpha sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterAlphaBumped = SABRDataSets.createSABR1AlphaBumped(shiftAlpha); final SABRSwaptionProviderDiscount sabrBundleAlphaBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterAlphaBumped, EUR1YEURIBOR6M); final double pvLongPayerAlphaBumped = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, sabrBundleAlphaBumped) .getAmount(EUR) .getAmount(); final double expectedAlphaSensi = (pvLongPayerAlphaBumped - pv) / shiftAlpha; assertEquals("Number of alpha sensitivity", pvsCapLong.getAlpha().getMap().keySet().size(), 1); assertEquals( "Alpha sensitivity expiry/tenor", pvsCapLong.getAlpha().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Alpha sensitivity value", expectedAlphaSensi, pvsCapLong.getAlpha().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Rho sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterRhoBumped = SABRDataSets.createSABR1RhoBumped(); final SABRSwaptionProviderDiscount sabrBundleRhoBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterRhoBumped, EUR1YEURIBOR6M); final double pvLongPayerRhoBumped = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, sabrBundleRhoBumped) .getAmount(EUR) .getAmount(); final double expectedRhoSensi = (pvLongPayerRhoBumped - pv) / shift; assertEquals("Number of rho sensitivity", pvsCapLong.getRho().getMap().keySet().size(), 1); assertEquals( "Rho sensitivity expiry/tenor", pvsCapLong.getRho().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Rho sensitivity value", expectedRhoSensi, pvsCapLong.getRho().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Alpha sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterNuBumped = SABRDataSets.createSABR1NuBumped(); final SABRSwaptionProviderDiscount sabrBundleNuBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterNuBumped, EUR1YEURIBOR6M); final double pvLongPayerNuBumped = METHOD_EXTRAPOLATION_CAP .presentValue(CMS_CAP_LONG, sabrBundleNuBumped) .getAmount(EUR) .getAmount(); final double expectedNuSensi = (pvLongPayerNuBumped - pv) / shift; assertEquals("Number of nu sensitivity", pvsCapLong.getNu().getMap().keySet().size(), 1); assertTrue( "Nu sensitivity expiry/tenor", pvsCapLong.getNu().getMap().keySet().contains(expectedExpiryTenor)); assertEquals( "Nu sensitivity value", expectedNuSensi, pvsCapLong.getNu().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); } /** Tests the coupon present value SABR parameters sensitivity vs finite difference. */ public void presentValueSABRSensitivityCoupon() { final double pv = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final PresentValueSABRSensitivityDataBundle pvsCpn = METHOD_EXTRAPOLATION_CPN.presentValueSABRSensitivity(CMS_COUPON, SABR_MULTICURVES); // SABR sensitivity vs finite difference final double shift = 0.0001; final double shiftAlpha = 0.00001; final double maturity = CMS_COUPON .getUnderlyingSwap() .getFixedLeg() .getNthPayment( CMS_COUPON.getUnderlyingSwap().getFixedLeg().getNumberOfPayments() - 1) .getPaymentTime() - CMS_COUPON.getSettlementTime(); final DoublesPair expectedExpiryTenor = DoublesPair.of(CMS_COUPON.getFixingTime(), maturity); // Alpha sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterAlphaBumped = SABRDataSets.createSABR1AlphaBumped(shiftAlpha); final SABRSwaptionProviderDiscount sabrBundleAlphaBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterAlphaBumped, EUR1YEURIBOR6M); final double pvLongPayerAlphaBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleAlphaBumped) .getAmount(EUR) .getAmount(); final double expectedAlphaSensi = (pvLongPayerAlphaBumped - pv) / shiftAlpha; assertEquals("Number of alpha sensitivity", pvsCpn.getAlpha().getMap().keySet().size(), 1); assertEquals( "Alpha sensitivity expiry/tenor", pvsCpn.getAlpha().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Alpha sensitivity value", expectedAlphaSensi, pvsCpn.getAlpha().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Rho sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterRhoBumped = SABRDataSets.createSABR1RhoBumped(); final SABRSwaptionProviderDiscount sabrBundleRhoBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterRhoBumped, EUR1YEURIBOR6M); final double pvLongPayerRhoBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleRhoBumped) .getAmount(EUR) .getAmount(); final double expectedRhoSensi = (pvLongPayerRhoBumped - pv) / shift; assertEquals("Number of rho sensitivity", pvsCpn.getRho().getMap().keySet().size(), 1); assertEquals( "Rho sensitivity expiry/tenor", pvsCpn.getRho().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Rho sensitivity value", expectedRhoSensi, pvsCpn.getRho().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Nu sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterNuBumped = SABRDataSets.createSABR1NuBumped(); final SABRSwaptionProviderDiscount sabrBundleNuBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterNuBumped, EUR1YEURIBOR6M); final double pvLongPayerNuBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleNuBumped) .getAmount(EUR) .getAmount(); final double expectedNuSensi = (pvLongPayerNuBumped - pv) / shift; assertEquals("Number of nu sensitivity", pvsCpn.getNu().getMap().keySet().size(), 1); assertTrue( "Nu sensitivity expiry/tenor", pvsCpn.getNu().getMap().keySet().contains(expectedExpiryTenor)); assertEquals( "Nu sensitivity value", expectedNuSensi, pvsCpn.getNu().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); } /** Tests the present value SABR parameters sensitivity: Method vs Calculator. */ public void presentValueSABRSensitivityMethodVsCalculator() { final PresentValueSABRSensitivityDataBundle pvssMethod = METHOD_EXTRAPOLATION_CAP.presentValueSABRSensitivity(CMS_CAP_LONG, SABR_MULTICURVES); final PresentValueSABRSensitivityDataBundle pvssCalculator = CMS_CAP_LONG.accept(PVSSSSXC, SABR_MULTICURVES); assertEquals( "CMS cap/floor SABR: Present value SABR sensitivity: method vs calculator", pvssMethod, pvssCalculator); } /** Tests the present value strike sensitivity: Cap. */ public void presentValueStrikeSensitivityCap() { final double[] strikes = new double[] {0.0001, 0.0010, 0.0050, 0.0100, 0.0200, 0.0400, 0.0500}; final int nbStrikes = strikes.length; final double shift = 1.0E-5; final double[] errorRelative = new double[nbStrikes]; for (int loopstrike = 0; loopstrike < nbStrikes; loopstrike++) { final CapFloorCMSDefinition cmsCapDefinition = CapFloorCMSDefinition.from(CMS_COUPON_RECEIVER_DEFINITION, strikes[loopstrike], IS_CAP); final CapFloorCMSDefinition cmsCapShiftUpDefinition = CapFloorCMSDefinition.from( CMS_COUPON_RECEIVER_DEFINITION, strikes[loopstrike] + shift, IS_CAP); final CapFloorCMSDefinition cmsCapShiftDoDefinition = CapFloorCMSDefinition.from( CMS_COUPON_RECEIVER_DEFINITION, strikes[loopstrike] - shift, IS_CAP); final CapFloorCMS cmsCap = (CapFloorCMS) cmsCapDefinition.toDerivative(REFERENCE_DATE); final CapFloorCMS cmsCapShiftUp = (CapFloorCMS) cmsCapShiftUpDefinition.toDerivative(REFERENCE_DATE); final CapFloorCMS cmsCapShiftDo = (CapFloorCMS) cmsCapShiftDoDefinition.toDerivative(REFERENCE_DATE); final double pvShiftUp = METHOD_EXTRAPOLATION_CAP .presentValue(cmsCapShiftUp, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final double pvShiftDo = METHOD_EXTRAPOLATION_CAP .presentValue(cmsCapShiftDo, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final double sensiExpected = (pvShiftUp - pvShiftDo) / (2 * shift); final double sensiComputed = METHOD_EXTRAPOLATION_CAP.presentValueStrikeSensitivity(cmsCap, SABR_MULTICURVES); errorRelative[loopstrike] = (sensiExpected - sensiComputed) / sensiExpected; assertEquals( "CMS cap/floor SABR: Present value strike sensitivity " + loopstrike, 0, errorRelative[loopstrike], 5.0E-3); } } /** * Tests to estimate the impact of mu on the CMS coupon pricing. "enabled = false" for the * standard testing. */ public void testPriceMultiMu() { final double[] mu = new double[] {1.10, 1.30, 1.55, 2.25, 3.50, 6.00, 15.0}; final int nbMu = mu.length; final double priceCouponStd = METHOD_STANDARD_CPN.presentValue(CMS_COUPON, SABR_MULTICURVES).getAmount(EUR).getAmount(); @SuppressWarnings("unused") final double rateCouponStd = priceCouponStd / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); final double[] priceCouponExtra = new double[nbMu]; final double[] rateCouponExtra = new double[nbMu]; for (int loopmu = 0; loopmu < nbMu; loopmu++) { final CouponCMSSABRExtrapolationRightReplicationMethod methodExtrapolation = new CouponCMSSABRExtrapolationRightReplicationMethod(CUT_OFF_STRIKE, mu[loopmu]); priceCouponExtra[loopmu] = methodExtrapolation.presentValue(CMS_COUPON, SABR_MULTICURVES).getAmount(EUR).getAmount(); rateCouponExtra[loopmu] = priceCouponExtra[loopmu] / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); } final double priceCouponNoAdj = METHOD_DSC_CPN.presentValue(CMS_COUPON, MULTICURVES).getAmount(EUR).getAmount(); final double rateCouponNoAdj = priceCouponNoAdj / (CMS_COUPON.getPaymentYearFraction() * CMS_COUPON.getNotional() * MULTICURVES.getDiscountFactor(EUR, CMS_COUPON.getPaymentTime())); for (int loopmu = 1; loopmu < nbMu; loopmu++) { assertTrue( "Extrapolation: comparison with standard method", rateCouponExtra[loopmu - 1] > rateCouponExtra[loopmu]); } assertTrue( "Extrapolation: comparison with standard method", rateCouponExtra[nbMu - 1] > rateCouponNoAdj); } }
/** Tests the coupon present value SABR parameters sensitivity vs finite difference. */ public void presentValueSABRSensitivityCoupon() { final double pv = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, SABR_MULTICURVES) .getAmount(EUR) .getAmount(); final PresentValueSABRSensitivityDataBundle pvsCpn = METHOD_EXTRAPOLATION_CPN.presentValueSABRSensitivity(CMS_COUPON, SABR_MULTICURVES); // SABR sensitivity vs finite difference final double shift = 0.0001; final double shiftAlpha = 0.00001; final double maturity = CMS_COUPON .getUnderlyingSwap() .getFixedLeg() .getNthPayment( CMS_COUPON.getUnderlyingSwap().getFixedLeg().getNumberOfPayments() - 1) .getPaymentTime() - CMS_COUPON.getSettlementTime(); final DoublesPair expectedExpiryTenor = DoublesPair.of(CMS_COUPON.getFixingTime(), maturity); // Alpha sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterAlphaBumped = SABRDataSets.createSABR1AlphaBumped(shiftAlpha); final SABRSwaptionProviderDiscount sabrBundleAlphaBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterAlphaBumped, EUR1YEURIBOR6M); final double pvLongPayerAlphaBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleAlphaBumped) .getAmount(EUR) .getAmount(); final double expectedAlphaSensi = (pvLongPayerAlphaBumped - pv) / shiftAlpha; assertEquals("Number of alpha sensitivity", pvsCpn.getAlpha().getMap().keySet().size(), 1); assertEquals( "Alpha sensitivity expiry/tenor", pvsCpn.getAlpha().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Alpha sensitivity value", expectedAlphaSensi, pvsCpn.getAlpha().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Rho sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterRhoBumped = SABRDataSets.createSABR1RhoBumped(); final SABRSwaptionProviderDiscount sabrBundleRhoBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterRhoBumped, EUR1YEURIBOR6M); final double pvLongPayerRhoBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleRhoBumped) .getAmount(EUR) .getAmount(); final double expectedRhoSensi = (pvLongPayerRhoBumped - pv) / shift; assertEquals("Number of rho sensitivity", pvsCpn.getRho().getMap().keySet().size(), 1); assertEquals( "Rho sensitivity expiry/tenor", pvsCpn.getRho().getMap().keySet().contains(expectedExpiryTenor), true); assertEquals( "Rho sensitivity value", expectedRhoSensi, pvsCpn.getRho().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); // Nu sensitivity vs finite difference computation final SABRInterestRateParameters sabrParameterNuBumped = SABRDataSets.createSABR1NuBumped(); final SABRSwaptionProviderDiscount sabrBundleNuBumped = new SABRSwaptionProviderDiscount(MULTICURVES, sabrParameterNuBumped, EUR1YEURIBOR6M); final double pvLongPayerNuBumped = METHOD_EXTRAPOLATION_CPN .presentValue(CMS_COUPON, sabrBundleNuBumped) .getAmount(EUR) .getAmount(); final double expectedNuSensi = (pvLongPayerNuBumped - pv) / shift; assertEquals("Number of nu sensitivity", pvsCpn.getNu().getMap().keySet().size(), 1); assertTrue( "Nu sensitivity expiry/tenor", pvsCpn.getNu().getMap().keySet().contains(expectedExpiryTenor)); assertEquals( "Nu sensitivity value", expectedNuSensi, pvsCpn.getNu().getMap().get(expectedExpiryTenor), TOLERANCE_PV_DELTA); }