@Test(enabled = false) /** Tests the clean, dirty and yield vs external hard-coded values. */ public void priceYieldExternalValues1() { final double m1 = 1000000; // Notional of the external figures. final ZonedDateTime pricingDate20110817 = DateUtils.getUTCDate(2011, 8, 16); // Spot 18-Aug-2011 final InflationIssuerProviderDiscount market = MulticurveProviderDiscountDataSets.createMarket1(pricingDate20110817); final double cleanRealPrice = 1.00; final BondCapitalIndexedSecurity<Coupon> bond_110817 = BOND_SECURITY_TIPS_1_DEFINITION.toDerivative(pricingDate20110817, US_CPI); final double referenceIndexExpected = 225.83129; final MultiCurrencyAmount netAmountSettle = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); final double referenceIndexComputed = netAmountSettle.getAmount(bond_110817.getCurrency()).getAmount() * BOND_SECURITY_TIPS_1_DEFINITION.getIndexStartValue() / bond_110817.getSettlement().getNotional(); assertEquals( "Inflation Capital Indexed bond: index", referenceIndexExpected, referenceIndexComputed, 1.0E-5); final double indexRatioExpected = 1.13782; final MultiCurrencyAmount indexRatioCalculated = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); assertEquals( "Inflation Capital Indexed bond: indexRatio", indexRatioExpected, indexRatioCalculated.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() / NOTIONAL_TIPS_1, 1.0E-5); final double yieldExpected = 1.999644 / 100.0; final double dirtyRealPriceComputed = METHOD_BOND_INFLATION.dirtyRealPriceFromCleanRealPrice(bond_110817, cleanRealPrice); final double yieldComputed = METHOD_BOND_INFLATION.yieldRealFromDirtyRealPrice(bond_110817, dirtyRealPriceComputed); assertEquals("Inflation Capital Indexed bond: yield ", yieldExpected, yieldComputed, 1.0E-8); final double accruedExpected = 2102.49; final double accruedRealExpected = accruedExpected / m1 / indexRatioExpected; final double accruedReal = bond_110817.getAccruedInterest(); assertEquals( "Inflation Capital Indexed bond: accrued", accruedRealExpected, accruedReal / NOTIONAL_TIPS_1, 1.0E-8); final double netAmountExpected = 1139922.49; // For 1m; uses the rounding rules. final double netAmount2 = indexRatioExpected * m1 * cleanRealPrice + accruedExpected; assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount2, 1.0E-2); final MultiCurrencyAmount netAmount = METHOD_BOND_INFLATION.netAmount(bond_110817, market, cleanRealPrice); assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() * m1 / NOTIONAL_TIPS_1, 2.0E+0); // The difference is due to rounding. }
/** Tests the present value of Capital inflation indexed bonds. */ @Test public class BondCapitalIndexedSecurityDiscountingMethodTest { private static final InflationIssuerProviderDiscount MARKET = MulticurveProviderDiscountDataSets.createMarket1(); private static final IndexPrice[] PRICE_INDEXES = MulticurveProviderDiscountDataSets.getPriceIndexes(); private static final IndexPrice PRICE_INDEX_UKRPI = PRICE_INDEXES[1]; private static final IndexPrice PRICE_INDEX_USCPI = PRICE_INDEXES[2]; private static final IndexPrice PRICE_INDEX_AUDCPI = PRICE_INDEXES[3]; private static final String[] ISSUER_NAMES = MulticurveProviderDiscountDataSets.getIssuerNames(); private static final String ISSUER_US_GOVT = ISSUER_NAMES[0]; private static final String ISSUER_UK_GOVT = ISSUER_NAMES[1]; private static final String ISSUER_AUD_GOVT = ISSUER_NAMES[3]; private static final double SHIFT_FD = 1.0E-9; private static final double TOLERANCE_PV_DELTA = 1.0E+2; private static final double TOLERANCE_SENSI_DELTA = 1.0E-6; private static final ZonedDateTime PRICING_DATE = DateUtils.getUTCDate(2011, 8, 8); private static final BondCapitalIndexedSecurityDiscountingMethod METHOD_BOND_INFLATION = new BondCapitalIndexedSecurityDiscountingMethod(); private static final CouponInflationZeroCouponMonthlyGearingDiscountingMethod METHOD_INFLATION_ZC_MONTHLY = new CouponInflationZeroCouponMonthlyGearingDiscountingMethod(); private static final CouponInflationZeroCouponInterpolationGearingDiscountingMethod METHOD_INFLATION_ZC_INTERPOLATION = new CouponInflationZeroCouponInterpolationGearingDiscountingMethod(); private static final PresentValueDiscountingInflationCalculator PVDIC = PresentValueDiscountingInflationCalculator.getInstance(); private static final NetAmountInflationCalculator NADIC = NetAmountInflationCalculator.getInstance(); private static final PresentValueDiscountingInflationIssuerCalculator PVDIIC = PresentValueDiscountingInflationIssuerCalculator.getInstance(); private static final ParameterSensitivityInflationMulticurveDiscountInterpolatedFDCalculator PS_PV_FDC = new ParameterSensitivityInflationMulticurveDiscountInterpolatedFDCalculator( PVDIC, SHIFT_FD); private static final PresentValueCurveSensitivityDiscountingInflationCalculator PVCSDC = PresentValueCurveSensitivityDiscountingInflationCalculator.getInstance(); private static final ParameterSensitivityInflationParameterCalculator< ParameterInflationProviderInterface> PSC = new ParameterSensitivityInflationParameterCalculator<>(PVCSDC); // Treasury Indexed Bonds CAIN 3% Index-linked Treasury Stock 2025 - AU0000XCLWP8 private static final HolidayCalendar CALENDAR_AUD = HolidayCalendars.SAT_SUN; private static final BusinessDayConvention BUSINESS_DAY_AUD = BusinessDayConventions.FOLLOWING; private static final DayCount DAY_COUNT_CAIN = DayCounts.ACT_ACT_ISDA; private static final boolean IS_EOM_CAIN = false; private static final ZonedDateTime START_DATE_CAIN = DateUtils.getUTCDate(2009, 9, 30); private static final ZonedDateTime FIRST_COUPON_DATE_CAIN = DateUtils.getUTCDate(2009, 12, 20); private static final ZonedDateTime MATURITY_DATE_CAIN = DateUtils.getUTCDate(2025, 12, 20); private static final YieldConvention YIELD_CONVENTION_CAIN = YieldConventionFactory.INSTANCE.getYieldConvention("UK:BUMP/DMO METHOD"); // To check private static final int MONTH_LAG_CAIN = 6; private static final double INDEX_START_CAIN = 173.60; // November 2001 private static final double NOTIONAL_CAIN = 1.00; private static final double REAL_RATE_CAIN = 0.03; private static final Period COUPON_PERIOD_CAIN = Period.ofMonths(3); private static final int SETTLEMENT_DAYS_CAIN = 2; // TODO: ex-coupon 7 days private static final BondCapitalIndexedSecurityDefinition< CouponInflationZeroCouponMonthlyGearingDefinition> BOND_SECURITY_CAIN_DEFINITION = BondCapitalIndexedSecurityDefinition.fromMonthly( PRICE_INDEX_AUDCPI, MONTH_LAG_CAIN, START_DATE_CAIN, INDEX_START_CAIN, FIRST_COUPON_DATE_CAIN, MATURITY_DATE_CAIN, COUPON_PERIOD_CAIN, NOTIONAL_CAIN, REAL_RATE_CAIN, BUSINESS_DAY_AUD, SETTLEMENT_DAYS_CAIN, CALENDAR_AUD, DAY_COUNT_CAIN, YIELD_CONVENTION_CAIN, IS_EOM_CAIN, ISSUER_AUD_GOVT); private static final DoubleTimeSeries<ZonedDateTime> AUD_CPI = MulticurveProviderDiscountDataSets.audCPIFrom2009(); private static final BondCapitalIndexedSecurity<Coupon> BOND_SECURITY_CAIN = BOND_SECURITY_CAIN_DEFINITION.toDerivative(PRICING_DATE, AUD_CPI); /** Tests the present value computation. */ public void presentValueCAIN() { final InflationProviderDiscount marketUKGovt = new InflationProviderDiscount(); marketUKGovt.setCurve( BOND_SECURITY_CAIN.getCurrency(), MARKET.getCurve(BOND_SECURITY_CAIN.getIssuerEntity())); marketUKGovt.setCurve(PRICE_INDEX_AUDCPI, MARKET.getCurve(PRICE_INDEX_AUDCPI)); final MultiCurrencyAmount pvNominal = METHOD_INFLATION_ZC_MONTHLY.presentValue( (CouponInflationZeroCouponMonthlyGearing) BOND_SECURITY_CAIN.getNominal().getNthPayment(0), marketUKGovt); MultiCurrencyAmount pvCoupon = MultiCurrencyAmount.of(BOND_SECURITY_CAIN.getCurrency(), 0.0); for (int loopcpn = 0; loopcpn < BOND_SECURITY_CAIN.getCoupon().getNumberOfPayments(); loopcpn++) { pvCoupon = pvCoupon.plus( BOND_SECURITY_CAIN.getCoupon().getNthPayment(loopcpn).accept(PVDIC, marketUKGovt)); } final MultiCurrencyAmount pvExpectd = pvNominal.plus(pvCoupon); final MultiCurrencyAmount pv = METHOD_BOND_INFLATION.presentValue(BOND_SECURITY_CAIN, MARKET); assertEquals( "Inflation Capital Indexed bond: present value", pvExpectd.getAmount(BOND_SECURITY_CAIN.getCurrency()).getAmount(), pv.getAmount(BOND_SECURITY_CAIN.getCurrency()).getAmount(), 1.0E-2); } /** Tests the present value Method vs Calculator. */ public void presentValueMethodVsCalculatorCAIN() { final MultiCurrencyAmount pvMethod = METHOD_BOND_INFLATION.presentValue(BOND_SECURITY_CAIN, MARKET); final MultiCurrencyAmount pvCalculator = BOND_SECURITY_CAIN.accept(PVDIIC, MARKET); assertEquals("Inflation Capital Indexed bond: present value", pvMethod, pvCalculator); } /** Test the present value parameter curves sensitivity. */ public void presentValueParameterCurveSensitivityCAIN() { final MultipleCurrencyParameterSensitivity pvicsFD = PS_PV_FDC.calculateSensitivity( BOND_SECURITY_CAIN.getCoupon(), MARKET.getInflationProvider()); final MultipleCurrencyParameterSensitivity pvicsExact = PSC.calculateSensitivity( BOND_SECURITY_CAIN.getCoupon(), MARKET.getInflationProvider(), MARKET.getAllNames()); AssertSensitivityObjects.assertEquals( "Bond capital indexed security: presentValueParameterCurveSensitivity ", pvicsExact, pvicsFD, TOLERANCE_SENSI_DELTA); } /** Test the present value curves sensitivity. */ public void presentValueCurveSensitivityCAIN() { MulticurveProviderInterface multicurveDecorated = new MulticurveProviderDiscountingDecoratedIssuer( MARKET.getIssuerProvider(), BOND_SECURITY_CAIN.getCurrency(), BOND_SECURITY_CAIN.getIssuerEntity()); InflationProviderInterface creditDiscounting = new InflationProviderDecoratedMulticurve( MARKET.getInflationProvider(), multicurveDecorated); final MultipleCurrencyInflationSensitivity sensitivityNominal = BOND_SECURITY_CAIN.getNominal().accept(PVCSDC, creditDiscounting); final MultipleCurrencyInflationSensitivity sensitivityCoupon = BOND_SECURITY_CAIN.getCoupon().accept(PVCSDC, creditDiscounting); final MultipleCurrencyInflationSensitivity pvcisCalculated = sensitivityNominal.plus(sensitivityCoupon); final MultipleCurrencyInflationSensitivity pvcisMethod = METHOD_BOND_INFLATION.presentValueCurveSensitivity(BOND_SECURITY_CAIN, MARKET); AssertSensitivityObjects.assertEquals( "Bond capital indexed security: presentValueCurveSensitivity ", pvcisCalculated, pvcisMethod, TOLERANCE_PV_DELTA); } // Index-Lined Gilt 2% Index-linked Treasury Stock 2035 - GB0031790826 private static final HolidayCalendar CALENDAR_GBP = HolidayCalendars.SAT_SUN; private static final BusinessDayConvention BUSINESS_DAY_GBP = BusinessDayConventions.FOLLOWING; private static final DayCount DAY_COUNT_GILT_1 = DayCounts.ACT_ACT_ISDA; private static final boolean IS_EOM_GILT_1 = false; private static final ZonedDateTime START_DATE_GILT_1 = DateUtils.getUTCDate(2002, 7, 11); private static final ZonedDateTime FIRST_COUPON_DATE_GILT_1 = DateUtils.getUTCDate(2003, 1, 26); private static final ZonedDateTime MATURITY_DATE_GILT_1 = DateUtils.getUTCDate(2035, 1, 26); private static final YieldConvention YIELD_CONVENTION_GILT_1 = SimpleYieldConvention.UK_IL_BOND; // YieldConventionFactory.INSTANCE.getYieldConvention("UK:BUMP/DMO METHOD"); // To check private static final int MONTH_LAG_GILT_1 = 8; private static final double INDEX_START_GILT_1 = 173.60; // November 2001 private static final double NOTIONAL_GILT_1 = 1.00; private static final double REAL_RATE_GILT_1 = 0.02; private static final Period COUPON_PERIOD_GILT_1 = Period.ofMonths(6); private static final int SETTLEMENT_DAYS_GILT_1 = 2; // TODO: ex-coupon 7 days private static final BondCapitalIndexedSecurityDefinition< CouponInflationZeroCouponMonthlyGearingDefinition> BOND_SECURITY_GILT_1_DEFINITION = BondCapitalIndexedSecurityDefinition.fromMonthly( PRICE_INDEX_UKRPI, MONTH_LAG_GILT_1, START_DATE_GILT_1, INDEX_START_GILT_1, FIRST_COUPON_DATE_GILT_1, MATURITY_DATE_GILT_1, COUPON_PERIOD_GILT_1, NOTIONAL_GILT_1, REAL_RATE_GILT_1, BUSINESS_DAY_GBP, SETTLEMENT_DAYS_GILT_1, CALENDAR_GBP, DAY_COUNT_GILT_1, YIELD_CONVENTION_GILT_1, IS_EOM_GILT_1, ISSUER_UK_GOVT); private static final DoubleTimeSeries<ZonedDateTime> UK_RPI = MulticurveProviderDiscountDataSets.ukRpiFrom2010(); private static final BondCapitalIndexedSecurity<Coupon> BOND_SECURITY_GILT_1 = BOND_SECURITY_GILT_1_DEFINITION.toDerivative(PRICING_DATE, UK_RPI); /** Tests the present value computation. */ public void presentValueGilt1() { final InflationProviderDiscount marketUKGovt = new InflationProviderDiscount(); marketUKGovt.setCurve( BOND_SECURITY_GILT_1.getCurrency(), MARKET.getCurve(BOND_SECURITY_GILT_1.getIssuerEntity())); marketUKGovt.setCurve(PRICE_INDEX_UKRPI, MARKET.getCurve(PRICE_INDEX_UKRPI)); final MultiCurrencyAmount pvNominal = METHOD_INFLATION_ZC_MONTHLY.presentValue( (CouponInflationZeroCouponMonthlyGearing) BOND_SECURITY_GILT_1.getNominal().getNthPayment(0), marketUKGovt); MultiCurrencyAmount pvCoupon = MultiCurrencyAmount.of(BOND_SECURITY_GILT_1.getCurrency(), 0.0); for (int loopcpn = 0; loopcpn < BOND_SECURITY_GILT_1.getCoupon().getNumberOfPayments(); loopcpn++) { pvCoupon = pvCoupon.plus( BOND_SECURITY_GILT_1.getCoupon().getNthPayment(loopcpn).accept(PVDIC, marketUKGovt)); } final MultiCurrencyAmount pvExpected = pvNominal.plus(pvCoupon); final MultiCurrencyAmount pv = METHOD_BOND_INFLATION.presentValue(BOND_SECURITY_GILT_1, MARKET); assertEquals( "Inflation Capital Indexed bond: present value", pvExpected.getAmount(BOND_SECURITY_GILT_1.getCurrency()).getAmount(), pv.getAmount(BOND_SECURITY_GILT_1.getCurrency()).getAmount(), 1.0E-2); } /** Tests the present value Method vs Calculator. */ public void presentValueMethodVsCalculator() { final MultiCurrencyAmount pvMethod = METHOD_BOND_INFLATION.presentValue(BOND_SECURITY_GILT_1, MARKET); final MultiCurrencyAmount pvCalculator = BOND_SECURITY_GILT_1.accept(PVDIIC, MARKET); assertEquals("Inflation Capital Indexed bond: present value", pvMethod, pvCalculator); } // 2% 10-YEAR TREASURY INFLATION-PROTECTED SECURITIES (TIPS) Due January 15, 2016 - US912828ET33 private static final HolidayCalendar CALENDAR_USD = HolidayCalendars.SAT_SUN; private static final BusinessDayConvention BUSINESS_DAY_USD = BusinessDayConventions.FOLLOWING; private static final DayCount DAY_COUNT_TIPS_1 = DayCounts.ACT_ACT_ICMA; private static final boolean IS_EOM_TIPS_1 = false; private static final ZonedDateTime START_DATE_TIPS_1 = DateUtils.getUTCDate(2006, 1, 15); private static final ZonedDateTime MATURITY_DATE_TIPS_1 = DateUtils.getUTCDate(2016, 1, 15); private static final YieldConvention YIELD_CONVENTION_TIPS_1 = SimpleYieldConvention.US_IL_REAL; private static final int MONTH_LAG_TIPS_1 = 3; private static final double INDEX_START_TIPS_1 = 198.47742; // Date: private static final double NOTIONAL_TIPS_1 = 100.00; private static final double REAL_RATE_TIPS_1 = 0.02; private static final Period COUPON_PERIOD_TIPS_1 = Period.ofMonths(6); private static final int SETTLEMENT_DAYS_TIPS_1 = 1; private static final BondCapitalIndexedSecurityDefinition< CouponInflationZeroCouponInterpolationGearingDefinition> BOND_SECURITY_TIPS_1_DEFINITION = BondCapitalIndexedSecurityDefinition.fromInterpolation( PRICE_INDEX_USCPI, MONTH_LAG_TIPS_1, START_DATE_TIPS_1, INDEX_START_TIPS_1, MATURITY_DATE_TIPS_1, COUPON_PERIOD_TIPS_1, NOTIONAL_TIPS_1, REAL_RATE_TIPS_1, BUSINESS_DAY_USD, SETTLEMENT_DAYS_TIPS_1, CALENDAR_USD, DAY_COUNT_TIPS_1, YIELD_CONVENTION_TIPS_1, IS_EOM_TIPS_1, ISSUER_US_GOVT); private static final DoubleTimeSeries<ZonedDateTime> US_CPI = MulticurveProviderDiscountDataSets.usCpiFrom2009(); private static final BondCapitalIndexedSecurity<Coupon> BOND_SECURITY_TIPS_1 = BOND_SECURITY_TIPS_1_DEFINITION.toDerivative(PRICING_DATE, US_CPI); /** Tests the present value computation. */ public void presentValueTips1() { final InflationProviderDiscount marketUSGovt = new InflationProviderDiscount(); marketUSGovt.setCurve( BOND_SECURITY_TIPS_1.getCurrency(), MARKET.getCurve(BOND_SECURITY_TIPS_1.getIssuerEntity())); marketUSGovt.setCurve(PRICE_INDEX_USCPI, MARKET.getCurve(PRICE_INDEX_USCPI)); final MultiCurrencyAmount pvNominal = METHOD_INFLATION_ZC_INTERPOLATION.presentValue( (CouponInflationZeroCouponInterpolationGearing) BOND_SECURITY_TIPS_1.getNominal().getNthPayment(0), marketUSGovt); MultiCurrencyAmount pvCoupon = MultiCurrencyAmount.of(BOND_SECURITY_TIPS_1.getCurrency(), 0.0); for (int loopcpn = 0; loopcpn < BOND_SECURITY_TIPS_1.getCoupon().getNumberOfPayments(); loopcpn++) { pvCoupon = pvCoupon.plus( BOND_SECURITY_TIPS_1.getCoupon().getNthPayment(loopcpn).accept(PVDIC, marketUSGovt)); } final MultiCurrencyAmount pvExpected = pvNominal.plus(pvCoupon); final MultiCurrencyAmount pv = METHOD_BOND_INFLATION.presentValue(BOND_SECURITY_TIPS_1, MARKET); assertEquals( "Inflation Capital Indexed bond: present value", pvExpected.getAmount(BOND_SECURITY_TIPS_1.getCurrency()).getAmount(), pv.getAmount(BOND_SECURITY_TIPS_1.getCurrency()).getAmount(), 1.0E-2); } /** Tests the present value computation. */ public void presentValueFromCleanPriceRealTips1() { final double cleanPriceReal = 1.05; Currency ccy = BOND_SECURITY_TIPS_1.getCurrency(); final MultiCurrencyAmount pv = METHOD_BOND_INFLATION.presentValueFromCleanRealPrice( BOND_SECURITY_TIPS_1, MARKET, cleanPriceReal); MultiCurrencyAmount pvPriceReal = BOND_SECURITY_TIPS_1.getSettlement().accept(PVDIIC, MARKET).multipliedBy(cleanPriceReal); MultiCurrencyAmount pvAccrued = BOND_SECURITY_TIPS_1 .getSettlement() .accept(PVDIC, MARKET) .multipliedBy(BOND_SECURITY_TIPS_1.getAccruedInterest()); MultiCurrencyAmount pvExpected = pvPriceReal.plus(pvAccrued); assertEquals( "Inflation Capital Indexed bond: present value from clean real price", pvExpected.getAmount(ccy).getAmount(), pv.getAmount(ccy).getAmount(), 1.0E-6); } /** Tests the present value computation. */ public void presentValueFromCleanPriceNominalTips1() { final double cleanPriceNominal = 1.05; Currency ccy = BOND_SECURITY_TIPS_1.getCurrency(); final MultiCurrencyAmount pv = METHOD_BOND_INFLATION.presentValueFromCleanNominalPrice( BOND_SECURITY_TIPS_1, MARKET, cleanPriceNominal); MultiCurrencyAmount pvAccrued = BOND_SECURITY_TIPS_1 .getSettlement() .accept(PVDIC, MARKET) .multipliedBy(BOND_SECURITY_TIPS_1.getAccruedInterest()); double pvPriceNominal = cleanPriceNominal * MARKET.getDiscountFactor(ccy, BOND_SECURITY_TIPS_1.getSettlementTime()) * NOTIONAL_TIPS_1; double pvExpected = pvPriceNominal + pvAccrued.getAmount(ccy).getAmount(); assertEquals( "Inflation Capital Indexed bond: present value from clean real price", pvExpected, pv.getAmount(ccy).getAmount(), 1.0E-6); } /** Tests the clean real price from the dirty real price. */ public void cleanNominalPriceFromDirtyNominalPriceTips1() { final double dirtyNominal = 1.01; final double cleanReal = METHOD_BOND_INFLATION.cleanNominalPriceFromDirtyNominalPrice( BOND_SECURITY_TIPS_1, dirtyNominal); final double indexRatio = BOND_SECURITY_TIPS_1.getIndexRatio(); final double cleanRealExpected = dirtyNominal - BOND_SECURITY_TIPS_1.getAccruedInterest() / NOTIONAL_TIPS_1 * indexRatio; assertEquals( "Inflation Capital Indexed bond: clean from dirty", cleanRealExpected, cleanReal, 1.0E-8); } /** Tests the clean real price from the dirty real price. */ public void cleanRealFromDirtyRealTips1() { final double dirtyReal = 1.01; final double cleanReal = METHOD_BOND_INFLATION.cleanRealPriceFromDirtyRealPrice(BOND_SECURITY_TIPS_1, dirtyReal); final double cleanRealExpected = dirtyReal - BOND_SECURITY_TIPS_1.getAccruedInterest() / NOTIONAL_TIPS_1; assertEquals( "Inflation Capital Indexed bond: clean from dirty", cleanRealExpected, cleanReal, 1.0E-8); } /** Tests the dirty real price computation from the real yield in the "US I/L real" convention. */ public void dirtyRealPriceFromRealYieldTips1() { final double[] yield = new double[] {-0.01, 0.00, 0.01, 0.02, 0.03}; final int nbCoupon = BOND_SECURITY_TIPS_1.getCoupon().getNumberOfPayments(); final double[] dirtyRealPrice = new double[yield.length]; final double[] dirtyRealPriceExpected = new double[yield.length]; for (int loopyield = 0; loopyield < yield.length; loopyield++) { dirtyRealPrice[loopyield] = METHOD_BOND_INFLATION.dirtyPriceFromRealYield(BOND_SECURITY_TIPS_1, yield[loopyield]); final double factorOnPeriod = 1 + yield[loopyield] / BOND_SECURITY_TIPS_1.getCouponPerYear(); double pvAtFirstCoupon = 0; for (int loopcpn = 0; loopcpn < nbCoupon; loopcpn++) { pvAtFirstCoupon += ((CouponInflationGearing) BOND_SECURITY_TIPS_1.getCoupon().getNthPayment(loopcpn)) .getFactor() / BOND_SECURITY_TIPS_1.getCouponPerYear() / Math.pow(factorOnPeriod, loopcpn); } pvAtFirstCoupon += 1.0 / Math.pow(factorOnPeriod, nbCoupon - 1); dirtyRealPriceExpected[loopyield] = pvAtFirstCoupon / (1 + BOND_SECURITY_TIPS_1.getAccrualFactorToNextCoupon() * yield[loopyield] / BOND_SECURITY_TIPS_1.getCouponPerYear()); assertEquals( "Inflation Capital Indexed bond: yield " + loopyield, dirtyRealPriceExpected[loopyield], dirtyRealPrice[loopyield], 1.0E-8); } } /** Tests the clean real price from the dirty real price. */ public void yieldRealFromDirtyRealTips1() { final double[] yield = new double[] {-0.01, 0.00, 0.01, 0.02, 0.03}; final double[] dirtyRealPrice = new double[yield.length]; final double[] yieldComputed = new double[yield.length]; for (int loopyield = 0; loopyield < yield.length; loopyield++) { dirtyRealPrice[loopyield] = METHOD_BOND_INFLATION.dirtyPriceFromRealYield(BOND_SECURITY_TIPS_1, yield[loopyield]); yieldComputed[loopyield] = METHOD_BOND_INFLATION.yieldRealFromDirtyRealPrice( BOND_SECURITY_TIPS_1, dirtyRealPrice[loopyield]); assertEquals( "Inflation Capital Indexed bond: yield " + loopyield, yield[loopyield], yieldComputed[loopyield], 1.0E-8); } } @Test(enabled = false) /** Tests the clean, dirty and yield vs external hard-coded values. */ public void priceYieldExternalValues1() { final double m1 = 1000000; // Notional of the external figures. final ZonedDateTime pricingDate20110817 = DateUtils.getUTCDate(2011, 8, 16); // Spot 18-Aug-2011 final InflationIssuerProviderDiscount market = MulticurveProviderDiscountDataSets.createMarket1(pricingDate20110817); final double cleanRealPrice = 1.00; final BondCapitalIndexedSecurity<Coupon> bond_110817 = BOND_SECURITY_TIPS_1_DEFINITION.toDerivative(pricingDate20110817, US_CPI); final double referenceIndexExpected = 225.83129; final MultiCurrencyAmount netAmountSettle = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); final double referenceIndexComputed = netAmountSettle.getAmount(bond_110817.getCurrency()).getAmount() * BOND_SECURITY_TIPS_1_DEFINITION.getIndexStartValue() / bond_110817.getSettlement().getNotional(); assertEquals( "Inflation Capital Indexed bond: index", referenceIndexExpected, referenceIndexComputed, 1.0E-5); final double indexRatioExpected = 1.13782; final MultiCurrencyAmount indexRatioCalculated = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); assertEquals( "Inflation Capital Indexed bond: indexRatio", indexRatioExpected, indexRatioCalculated.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() / NOTIONAL_TIPS_1, 1.0E-5); final double yieldExpected = 1.999644 / 100.0; final double dirtyRealPriceComputed = METHOD_BOND_INFLATION.dirtyRealPriceFromCleanRealPrice(bond_110817, cleanRealPrice); final double yieldComputed = METHOD_BOND_INFLATION.yieldRealFromDirtyRealPrice(bond_110817, dirtyRealPriceComputed); assertEquals("Inflation Capital Indexed bond: yield ", yieldExpected, yieldComputed, 1.0E-8); final double accruedExpected = 2102.49; final double accruedRealExpected = accruedExpected / m1 / indexRatioExpected; final double accruedReal = bond_110817.getAccruedInterest(); assertEquals( "Inflation Capital Indexed bond: accrued", accruedRealExpected, accruedReal / NOTIONAL_TIPS_1, 1.0E-8); final double netAmountExpected = 1139922.49; // For 1m; uses the rounding rules. final double netAmount2 = indexRatioExpected * m1 * cleanRealPrice + accruedExpected; assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount2, 1.0E-2); final MultiCurrencyAmount netAmount = METHOD_BOND_INFLATION.netAmount(bond_110817, market, cleanRealPrice); assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() * m1 / NOTIONAL_TIPS_1, 2.0E+0); // The difference is due to rounding. } @Test(enabled = false) /** Tests the clean, dirty and yield vs external hard-coded values. */ public void priceYieldExternalValues2() { final double m1 = 1000000; // Notional of the external figures. final ZonedDateTime pricingDate20110817 = DateUtils.getUTCDate(2011, 8, 17); // Spot 18-Aug-2011 final InflationIssuerProviderDiscount market = MulticurveProviderDiscountDataSets.createMarket1(pricingDate20110817); final double cleanRealPrice = 1.13 + 0.01 / 32; final BondCapitalIndexedSecurity<Coupon> bond_110817 = BOND_SECURITY_TIPS_1_DEFINITION.toDerivative(pricingDate20110817, US_CPI); final double referenceIndexExpected = 225.83129; final MultiCurrencyAmount netAmountSettle = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); final double referenceIndexComputed = netAmountSettle.getAmount(bond_110817.getCurrency()).getAmount() * BOND_SECURITY_TIPS_1_DEFINITION.getIndexStartValue() / bond_110817.getSettlement().getNotional(); assertEquals( "Inflation Capital Indexed bond: index", referenceIndexExpected, referenceIndexComputed, 1.0E-5); final double indexRatioExpected = 1.13782; assertEquals( "Inflation Capital Indexed bond: indexRatio", indexRatioExpected, referenceIndexComputed / INDEX_START_TIPS_1, 1.0E-5); final double yieldExpected = -0.892152 / 100.0; final double dirtyRealPriceComputed = METHOD_BOND_INFLATION.dirtyRealPriceFromCleanRealPrice(bond_110817, cleanRealPrice); final double yieldComputed = METHOD_BOND_INFLATION.yieldRealFromDirtyRealPrice(bond_110817, dirtyRealPriceComputed); assertEquals("Inflation Capital Indexed bond: yield ", yieldExpected, yieldComputed, 1.0E-8); final double accruedExpected = 2102.49; final double accruedRealExpected = accruedExpected / m1 / indexRatioExpected; final double accruedReal = bond_110817.getAccruedInterest(); assertEquals( "Inflation Capital Indexed bond: accrued", accruedRealExpected, accruedReal / NOTIONAL_TIPS_1, 1.0E-8); final double netAmountExpected = 1288194.66; // For 1m; uses the rounding rules. final double netAmount2 = indexRatioExpected * m1 * cleanRealPrice + accruedExpected; assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount2, 1.0E-2); final MultiCurrencyAmount netAmount = METHOD_BOND_INFLATION.netAmount(bond_110817, market, cleanRealPrice); assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() * m1 / NOTIONAL_TIPS_1, 2.0E+0); // The difference is due to rounding. } @Test(enabled = false) /** Tests the clean, dirty and yield vs external hard-coded values. */ public void priceYieldExternalValues3() { final double m1 = 1000000; // Notional of the external figures. final ZonedDateTime pricingDate20110817 = DateUtils.getUTCDate(2011, 8, 18); // Spot 19-Aug-2011 final InflationIssuerProviderDiscount market = MulticurveProviderDiscountDataSets.createMarket1(pricingDate20110817); final double cleanRealPrice = 1.00; final BondCapitalIndexedSecurity<Coupon> bond_110817 = BOND_SECURITY_TIPS_1_DEFINITION.toDerivative(pricingDate20110817, US_CPI); final double referenceIndexExpected = 225.82348; final MultiCurrencyAmount netAmountSettle = bond_110817.getSettlement().accept(NADIC, market.getInflationProvider()); final double referenceIndexComputed = netAmountSettle.getAmount(bond_110817.getCurrency()).getAmount() * BOND_SECURITY_TIPS_1_DEFINITION.getIndexStartValue() / bond_110817.getSettlement().getNotional(); assertEquals( "Inflation Capital Indexed bond: index", referenceIndexExpected, referenceIndexComputed, 1.0E-5); final double indexRatioExpected = 1.13778; final double yieldExpected = 1.999636 / 100.0; final double dirtyRealPriceComputed = METHOD_BOND_INFLATION.dirtyRealPriceFromCleanRealPrice(bond_110817, cleanRealPrice); final double yieldComputed = METHOD_BOND_INFLATION.yieldRealFromDirtyRealPrice(bond_110817, dirtyRealPriceComputed); assertEquals("Inflation Capital Indexed bond: yield ", yieldExpected, yieldComputed, 1.0E-8); final double accruedExpected = 2164.26; final double accruedRealExpected = accruedExpected / m1 / indexRatioExpected; final double accruedReal = bond_110817.getAccruedInterest(); assertEquals( "Inflation Capital Indexed bond: accrued", accruedRealExpected, accruedReal / NOTIONAL_TIPS_1, 1.0E-8); final double netAmountExpected = 1139944.26; // For 1m; uses the rounding rules. final double netAmount2 = indexRatioExpected * m1 * cleanRealPrice + accruedExpected; assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount2, 1.0E-2); final MultiCurrencyAmount netAmount = METHOD_BOND_INFLATION.netAmount(bond_110817, market, cleanRealPrice); assertEquals( "Inflation Capital Indexed bond: net amount", netAmountExpected, netAmount.getAmount(PRICE_INDEX_USCPI.getCurrency()).getAmount() * m1 / NOTIONAL_TIPS_1, 2.0E+0); // The difference is due to rounding. } /** Test the present value parameter curves sensitivity. */ public void presentValueParameterCurveSensitivity() { final MultipleCurrencyParameterSensitivity pvicsFD = PS_PV_FDC.calculateSensitivity( BOND_SECURITY_GILT_1.getCoupon(), MARKET.getInflationProvider()); final MultipleCurrencyParameterSensitivity pvicsExact = PSC.calculateSensitivity( BOND_SECURITY_GILT_1.getCoupon(), MARKET.getInflationProvider(), MARKET.getAllNames()); AssertSensitivityObjects.assertEquals( "Bond capital indexed security: presentValueParameterCurveSensitivity ", pvicsExact, pvicsFD, TOLERANCE_PV_DELTA); } /** Test the present value curves sensitivity. */ public void presentValueCurveSensitivity() { MulticurveProviderInterface multicurveDecorated = new MulticurveProviderDiscountingDecoratedIssuer( MARKET.getIssuerProvider(), BOND_SECURITY_GILT_1.getCurrency(), BOND_SECURITY_GILT_1.getIssuerEntity()); InflationProviderInterface inflationDecorated = new InflationProviderDecoratedMulticurve( MARKET.getInflationProvider(), multicurveDecorated); final MultipleCurrencyInflationSensitivity sensitivityNominal = BOND_SECURITY_GILT_1.getNominal().accept(PVCSDC, inflationDecorated); final MultipleCurrencyInflationSensitivity sensitivityCoupon = BOND_SECURITY_GILT_1.getCoupon().accept(PVCSDC, inflationDecorated); final MultipleCurrencyInflationSensitivity pvcisCalculated = sensitivityNominal.plus(sensitivityCoupon); final MultipleCurrencyInflationSensitivity pvcisMethod = METHOD_BOND_INFLATION.presentValueCurveSensitivity(BOND_SECURITY_GILT_1, MARKET); AssertSensitivityObjects.assertEquals( "Bond capital indexed security: presentValueCurveSensitivity ", pvcisCalculated, pvcisMethod, TOLERANCE_PV_DELTA); } }