public virtual void test_accruedYearFraction() { double eps = 1.0e-15; ResolvedCdsIndex test = ResolvedCdsIndex.builder().buySell(BUY).dayCount(ACT_360).cdsIndexId(INDEX_ID).legalEntityIds(LEGAL_ENTITIES).paymentOnDefault(ACCRUED_PREMIUM).protectionStart(BEGINNING).paymentPeriods(PAYMENTS).protectionEndDate(PAYMENTS[PAYMENTS.Count - 1].EffectiveEndDate).settlementDateOffset(SETTLE_DAY_ADJ).stepinDateOffset(STEPIN_DAY_ADJ).build(); double accStart = test.accruedYearFraction(START_DATE.minusDays(1)); double accNextMinusOne = test.accruedYearFraction(START_DATE.plusMonths(3).minusDays(1)); double accNext = test.accruedYearFraction(START_DATE.plusMonths(3)); double accNextOne = test.accruedYearFraction(START_DATE.plusMonths(3).plusDays(1)); double accMod = test.accruedYearFraction(START_DATE.plusYears(1)); double accEnd = test.accruedYearFraction(END_DATE); double accEndOne = test.accruedYearFraction(END_DATE.plusDays(1)); assertEquals(accStart, 0d); assertEquals(accNext, 0d); assertEquals(accNextMinusOne, ACT_360.relativeYearFraction(START_DATE, START_DATE.plusMonths(3).minusDays(1)), eps); assertEquals(accNextOne, 1d / 360d, eps); // 2.x assertEquals(accMod, 0.24722222222222223, eps); assertEquals(accEnd, 0.25555555555555554, eps); assertEquals(accEndOne, 0.25833333333333336, eps); }
//------------------------------------------------------------------------- // creates a simple provider private SimpleRatesProvider createProvider(FxResetNotionalExchange ne) { LocalDate paymentDate = ne.PaymentDate; double paymentTime = ACT_360.relativeYearFraction(VAL_DATE, paymentDate); Currency currency = ne.Currency; DiscountFactors mockDf = mock(typeof(DiscountFactors)); when(mockDf.discountFactor(paymentDate)).thenReturn(DISCOUNT_FACTOR); ZeroRateSensitivity sens = ZeroRateSensitivity.of(currency, paymentTime, -DISCOUNT_FACTOR * paymentTime); when(mockDf.zeroRatePointSensitivity(paymentDate)).thenReturn(sens); FxIndexRates mockFxRates = mock(typeof(FxIndexRates)); when(mockFxRates.rate(ne.Observation, ne.ReferenceCurrency)).thenReturn(FX_RATE); SimpleRatesProvider prov = new SimpleRatesProvider(VAL_DATE); prov.DiscountFactors = mockDf; prov.FxIndexRates = mockFxRates; prov.DayCount = ACT_360; return(prov); }
public virtual void test_volatilities() { BlackFxOptionSmileVolatilitiesSpecification @base = BlackFxOptionSmileVolatilitiesSpecification.builder().name(VOL_NAME).currencyPair(EUR_GBP).dayCount(ACT_360).nodes(NODES).timeInterpolator(PCHIP).strikeInterpolator(PCHIP).build(); LocalDate date = LocalDate.of(2017, 9, 25); ZonedDateTime dateTime = date.atStartOfDay().atZone(ZoneId.of("Europe/London")); DoubleArray parameters = DoubleArray.of(0.05, -0.05, 0.15, 0.25, 0.1, -0.1); BlackFxOptionSmileVolatilities computed = @base.volatilities(dateTime, parameters, REF_DATA); LocalDate spotDate = SPOT_OFFSET.adjust(dateTime.toLocalDate(), REF_DATA); DaysAdjustment expOffset = DaysAdjustment.ofBusinessDays(-2, TA_LO); DoubleArray expiries = DoubleArray.of(ACT_360.relativeYearFraction(date, expOffset.adjust(BUS_ADJ.adjust(spotDate.plus(Tenor.TENOR_3M), REF_DATA), REF_DATA)), ACT_360.relativeYearFraction(date, expOffset.adjust(BUS_ADJ.adjust(spotDate.plus(Tenor.TENOR_1Y), REF_DATA), REF_DATA))); SmileDeltaTermStructure smiles = InterpolatedStrikeSmileDeltaTermStructure.of(expiries, DoubleArray.of(0.1), DoubleArray.of(0.25, 0.15), DoubleMatrix.ofUnsafe(new double[][] { new double[] { -0.1 }, new double[] { -0.05 } }), DoubleMatrix.ofUnsafe(new double[][] { new double[] { 0.1 }, new double[] { 0.05 } }), ACT_360, PCHIP, FLAT, FLAT, PCHIP, FLAT, FLAT); BlackFxOptionSmileVolatilities expected = BlackFxOptionSmileVolatilities.of(VOL_NAME, EUR_GBP, dateTime, smiles); assertEquals(computed, expected); }
static ResolvedCdsIndexTest() { int nDates = 44; LocalDate[] dates = new LocalDate[nDates]; for (int i = 0; i < nDates; ++i) { dates[i] = START_DATE.plusMonths(3 * i); } for (int i = 0; i < nDates - 2; ++i) { LocalDate start = i == 0 ? dates[i] : BUSS_ADJ.adjust(dates[i], REF_DATA); LocalDate end = BUSS_ADJ.adjust(dates[i + 1], REF_DATA); PAYMENTS.Add(CreditCouponPaymentPeriod.builder().startDate(start).endDate(end).effectiveStartDate(start.minusDays(1)).effectiveEndDate(end.minusDays(1)).paymentDate(end).currency(USD).notional(NOTIONAL).fixedRate(COUPON).yearFraction(ACT_360.relativeYearFraction(start, end)).build()); } LocalDate start = BUSS_ADJ.adjust(dates[nDates - 2], REF_DATA); LocalDate end = dates[nDates - 1]; PAYMENTS.Add(CreditCouponPaymentPeriod.builder().startDate(start).endDate(end.plusDays(1)).effectiveStartDate(start.minusDays(1)).effectiveEndDate(end).paymentDate(BUSS_ADJ.adjust(end, REF_DATA)).currency(USD).notional(NOTIONAL).fixedRate(COUPON).yearFraction(ACT_360.relativeYearFraction(start, end.plusDays(1))).build()); }
public virtual void test_resolve() { BusinessDayAdjustment bussAdj = BusinessDayAdjustment.of(FOLLOWING, SAT_SUN); ResolvedCds test = PRODUCT_STD.resolve(REF_DATA); int nDates = 44; LocalDate[] dates = new LocalDate[nDates]; for (int i = 0; i < nDates; ++i) { dates[i] = START_DATE.plusMonths(3 * i); } IList <CreditCouponPaymentPeriod> payments = new List <CreditCouponPaymentPeriod>(nDates - 1); for (int i = 0; i < nDates - 2; ++i) { LocalDate start = i == 0 ? dates[i] : bussAdj.adjust(dates[i], REF_DATA); LocalDate end = bussAdj.adjust(dates[i + 1], REF_DATA); payments.Add(CreditCouponPaymentPeriod.builder().startDate(start).endDate(end).unadjustedStartDate(dates[i]).unadjustedEndDate(dates[i + 1]).effectiveStartDate(start.minusDays(1)).effectiveEndDate(end.minusDays(1)).paymentDate(end).currency(USD).notional(NOTIONAL).fixedRate(COUPON).yearFraction(ACT_360.relativeYearFraction(start, end)).build()); } LocalDate start = bussAdj.adjust(dates[nDates - 2], REF_DATA); LocalDate end = dates[nDates - 1]; payments.Add(CreditCouponPaymentPeriod.builder().startDate(start).endDate(end.plusDays(1)).unadjustedStartDate(dates[nDates - 2]).unadjustedEndDate(end).effectiveStartDate(start.minusDays(1)).effectiveEndDate(end).paymentDate(bussAdj.adjust(end, REF_DATA)).currency(USD).notional(NOTIONAL).fixedRate(COUPON).yearFraction(ACT_360.relativeYearFraction(start, end.plusDays(1))).build()); ResolvedCds expected = ResolvedCds.builder().buySell(BUY).legalEntityId(LEGAL_ENTITY).dayCount(ACT_360).paymentOnDefault(ACCRUED_PREMIUM).paymentPeriods(payments).protectionStart(BEGINNING).protectionEndDate(END_DATE).settlementDateOffset(SETTLE_DAY_ADJ).stepinDateOffset(STEPIN_DAY_ADJ).build(); assertEquals(test, expected); }
public virtual void test_resolve_unadjustedAccrualAdjustedPayment() { Swap test = Swap.builder().legs(RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(date(2016, 1, 3)).endDate(date(2016, 5, 3)).frequency(Frequency.P1M).businessDayAdjustment(BusinessDayAdjustment.NONE).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P1M).businessDayAdjustment(BusinessDayAdjustment.of(FOLLOWING, SAT_SUN)).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, SAT_SUN)).build()).notionalSchedule(NotionalSchedule.of(GBP, NOTIONAL)).calculation(FixedRateCalculation.of(RATE, ACT_360)).build()).build(); RatePaymentPeriod pp1 = RatePaymentPeriod.builder().paymentDate(date(2016, 2, 5)).accrualPeriods(RateAccrualPeriod.builder().startDate(date(2016, 1, 3)).unadjustedStartDate(date(2016, 1, 3)).endDate(date(2016, 2, 3)).unadjustedEndDate(date(2016, 2, 3)).yearFraction(ACT_360.yearFraction(date(2016, 1, 3), date(2016, 2, 3))).rateComputation(FixedRateComputation.of(RATE)).build()).dayCount(ACT_360).currency(GBP).notional(NOTIONAL).build(); RatePaymentPeriod pp2 = RatePaymentPeriod.builder().paymentDate(date(2016, 3, 7)).accrualPeriods(RateAccrualPeriod.builder().startDate(date(2016, 2, 3)).unadjustedStartDate(date(2016, 2, 3)).endDate(date(2016, 3, 3)).unadjustedEndDate(date(2016, 3, 3)).yearFraction(ACT_360.yearFraction(date(2016, 2, 3), date(2016, 3, 3))).rateComputation(FixedRateComputation.of(RATE)).build()).dayCount(ACT_360).currency(GBP).notional(NOTIONAL).build(); RatePaymentPeriod pp3 = RatePaymentPeriod.builder().paymentDate(date(2016, 4, 6)).accrualPeriods(RateAccrualPeriod.builder().startDate(date(2016, 3, 3)).unadjustedStartDate(date(2016, 3, 3)).endDate(date(2016, 4, 3)).unadjustedEndDate(date(2016, 4, 3)).yearFraction(ACT_360.yearFraction(date(2016, 3, 3), date(2016, 4, 3))).rateComputation(FixedRateComputation.of(RATE)).build()).dayCount(ACT_360).currency(GBP).notional(NOTIONAL).build(); RatePaymentPeriod pp4 = RatePaymentPeriod.builder().paymentDate(date(2016, 5, 5)).accrualPeriods(RateAccrualPeriod.builder().startDate(date(2016, 4, 3)).unadjustedStartDate(date(2016, 4, 3)).endDate(date(2016, 5, 3)).unadjustedEndDate(date(2016, 5, 3)).yearFraction(ACT_360.yearFraction(date(2016, 4, 3), date(2016, 5, 3))).rateComputation(FixedRateComputation.of(RATE)).build()).dayCount(ACT_360).currency(GBP).notional(NOTIONAL).build(); ResolvedSwap expected = ResolvedSwap.builder().legs(ResolvedSwapLeg.builder().paymentPeriods(pp1, pp2, pp3, pp4).payReceive(RECEIVE).type(FIXED).build()).build(); assertEqualsBean(test.resolve(REF_DATA), expected); }
public virtual void test_loadAllDates() { LocalDate sampleDate = ALL_DATES[3]; // 2017-04-21 ImmutableList <LocalDate> expDates = ImmutableList.of(LocalDate.of(2017, 0x7, 21), LocalDate.of(2017, 10, 0x7), LocalDate.of(2018, 4, 13), LocalDate.of(2019, 4, 12), LocalDate.of(2020, 3, 20), LocalDate.of(2021, 3, 19), LocalDate.of(2022, 3, 19), LocalDate.of(2023, 3, 17), LocalDate.of(2024, 6, 17), LocalDate.of(2025, 3, 18), LocalDate.of(2026, 3, 20), LocalDate.of(2027, 3, 20), LocalDate.of(2031, 12, 19), LocalDate.of(2037, 3, 17), LocalDate.of(2047, 3, 17), LocalDate.of(2056, 3, 17)); ImmutableList <string> expTenors = ImmutableList.of("3M", "6M", "1Y", "2Y", "3Y", "4Y", "5Y", "6Y", "7Y", "8Y", "9Y", "10Y", "15Y", "20Y", "30Y", "40Y"); RepoGroup repoGroup = RepoGroup.of("JP-REPO"); DoubleArray expRepoXValues = DoubleArray.of(3, n => ACT_365F.relativeYearFraction(sampleDate, expDates.get(n))); DoubleArray expRepoYValues = DoubleArray.of(-0.0019521, -0.0016021, -0.0022521); ImmutableList <LabelDateParameterMetadata> expRepoMetadata = IntStream.range(0, 3).mapToObj(n => LabelDateParameterMetadata.of(expDates.get(n), expTenors.get(n))).collect(Guavate.toImmutableList()); LegalEntityGroup legalEntityGroup = LegalEntityGroup.of("JP-GOVT"); DoubleArray expIssuerXValues = DoubleArray.of(expDates.size(), n => ACT_365F.relativeYearFraction(sampleDate, expDates.get(n))); DoubleArray expIssuerYValues = DoubleArray.of(-0.0019511690511744527, -0.001497422302092893, -0.0021798583657932176, -0.002215700360912938, -0.0021722324679574866, -0.001922059591219172, -0.0015461646763548528, -0.0014835851245462084, -0.001118669580570464, -5.476767138782941E-4, -2.2155596172855965E-4, 2.0333291172821893E-5, 0.00284500423293463, 0.005876533417933958, 0.007957581583531789, 0.009134630405512047); ImmutableList <LabelDateParameterMetadata> expIssuerMetadata = IntStream.range(0, expDates.size()).mapToObj(n => LabelDateParameterMetadata.of(expDates.get(n), expTenors.get(n))).collect(Guavate.toImmutableList()); ImmutableListMultimap <LocalDate, LegalEntityCurveGroup> allCurves = LegalEntityRatesCurvesCsvLoader.loadAllDates(ResourceLocator.of(GROUPS), ResourceLocator.of(SETTINGS), ImmutableList.of(ResourceLocator.of(CURVES_1), ResourceLocator.of(CURVES_2))); //JAVA TO C# CONVERTER TODO TASK: There is no .NET equivalent to the java.util.Collection 'containsAll' method: assertTrue(allCurves.Keys.containsAll(ALL_DATES)); ImmutableList <LegalEntityCurveGroup> groups = allCurves.get(sampleDate); assertEquals(groups.size(), 2); // group 0 LegalEntityCurveGroup group0 = groups.get(0); assertEquals(group0.Name, CurveGroupName.of("Default1")); // repo assertEquals(group0.RepoCurves.size(), 1); Curve repoCurve = group0.RepoCurves.get(Pair.of(repoGroup, JPY)); InterpolatedNodalCurve expectedRepoCurve = InterpolatedNodalCurve.of(Curves.zeroRates(CurveName.of("JP-REPO-1"), ACT_365F, expRepoMetadata), expRepoXValues, expRepoYValues, CurveInterpolators.LINEAR, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT); assertEquals(repoCurve, expectedRepoCurve); // issuer assertEquals(group0.IssuerCurves.size(), 2); Curve issuerCurve = group0.IssuerCurves.get(Pair.of(legalEntityGroup, JPY)); InterpolatedNodalCurve expectedIssuerCurve = InterpolatedNodalCurve.of(Curves.zeroRates(CurveName.of("JP-GOVT-1"), ACT_365F, expIssuerMetadata), expIssuerXValues, expIssuerYValues, CurveInterpolators.LINEAR, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT); assertEquals(issuerCurve, expectedIssuerCurve); Curve usIssuerCurve = group0.IssuerCurves.get(Pair.of(LegalEntityGroup.of("US-GOVT"), USD)); expectedIssuerCurve = InterpolatedNodalCurve.of(Curves.zeroRates(CurveName.of("US-GOVT"), ACT_360, expIssuerMetadata), DoubleArray.of(expDates.size(), n => ACT_360.relativeYearFraction(sampleDate, expDates.get(n))), expIssuerYValues, CurveInterpolators.NATURAL_SPLINE, CurveExtrapolators.FLAT, CurveExtrapolators.FLAT); assertEquals(usIssuerCurve, expectedIssuerCurve); // group 1 LegalEntityCurveGroup group1 = groups.get(1); assertEquals(group1.Name, CurveGroupName.of("Default2")); // repo repoCurve = group1.RepoCurves.get(Pair.of(repoGroup, JPY)); expectedRepoCurve = InterpolatedNodalCurve.of(Curves.zeroRates(CurveName.of("JP-REPO-2"), ACT_365F, expRepoMetadata), expRepoXValues, expRepoYValues, CurveInterpolators.DOUBLE_QUADRATIC, CurveExtrapolators.LINEAR, CurveExtrapolators.LINEAR); assertEquals(repoCurve, expectedRepoCurve); // issuer assertEquals(group1.IssuerCurves.size(), 1); issuerCurve = group1.IssuerCurves.get(Pair.of(legalEntityGroup, JPY)); expectedIssuerCurve = InterpolatedNodalCurve.of(Curves.zeroRates(CurveName.of("JP-GOVT-2"), ACT_365F, expIssuerMetadata), expIssuerXValues, expIssuerYValues, CurveInterpolators.DOUBLE_QUADRATIC, CurveExtrapolators.LINEAR, CurveExtrapolators.LINEAR); assertEquals(issuerCurve, expectedIssuerCurve); }
public virtual void test_alphaAdjoint() { HullWhiteOneFactorPiecewiseConstantParametersProvider provider = HullWhiteOneFactorPiecewiseConstantParametersProvider.of(PARAMETERS, ACT_360, DATE_TIME); LocalDate data1 = LocalDate.of(2015, 5, 20); LocalDate data2 = LocalDate.of(2015, 8, 20); LocalDate data3 = LocalDate.of(2015, 8, 20); LocalDate data4 = LocalDate.of(2015, 8, 27); ValueDerivatives computed = provider.alphaAdjoint(data1, data2, data3, data4); ValueDerivatives expected = HullWhiteOneFactorPiecewiseConstantInterestRateModel.DEFAULT.alphaAdjoint(PARAMETERS, ACT_360.relativeYearFraction(VAL_DATE, data1), ACT_360.relativeYearFraction(VAL_DATE, data2), ACT_360.relativeYearFraction(VAL_DATE, data3), ACT_360.relativeYearFraction(VAL_DATE, data4)); assertEquals(computed, expected); }
public virtual void test_futuresConvexityFactor() { HullWhiteOneFactorPiecewiseConstantParametersProvider provider = HullWhiteOneFactorPiecewiseConstantParametersProvider.of(PARAMETERS, ACT_360, DATE_TIME); LocalDate data1 = LocalDate.of(2015, 5, 14); LocalDate data2 = LocalDate.of(2015, 5, 20); LocalDate data3 = LocalDate.of(2015, 8, 20); double computed = provider.futuresConvexityFactor(data1, data2, data3); double expected = HullWhiteOneFactorPiecewiseConstantInterestRateModel.DEFAULT.futuresConvexityFactor(PARAMETERS, ACT_360.relativeYearFraction(VAL_DATE, data1), ACT_360.relativeYearFraction(VAL_DATE, data2), ACT_360.relativeYearFraction(VAL_DATE, data3)); assertEquals(computed, expected); }