//-------------------------------------------------------------------------
//JAVA TO C# CONVERTER TODO TASK: Most Java annotations will not have direct .NET equivalent attributes:
//ORIGINAL LINE: @ImmutablePreBuild private static void preBuild(Builder builder)
        private static void preBuild(Builder builder)
        {
            if (builder.fixingDateOffset_Renamed == null && builder.fixingCalendar_Renamed != null && builder.maturityDateOffset_Renamed != null)
            {
                int days = builder.maturityDateOffset_Renamed.Days;
                HolidayCalendarId maturityCal = builder.maturityDateOffset_Renamed.Calendar;
                if (maturityCal.combinedWith(builder.fixingCalendar_Renamed).Equals(maturityCal))
                {
                    builder.fixingDateOffset_Renamed = DaysAdjustment.ofBusinessDays(-days, maturityCal);
                }
                else
                {
                    builder.fixingDateOffset_Renamed = DaysAdjustment.ofBusinessDays(-days, maturityCal, BusinessDayAdjustment.of(BusinessDayConventions.PRECEDING, builder.fixingCalendar_Renamed));
                }
            }
        }
Exemplo n.º 2
0
        static CalibrationZeroRateUsd3OisIrsBsTest()
        {
            DSC_NAMES[DSCON_CURVE_NAME] = USD;
            ISet <Index> usdFedFundSet = new HashSet <Index>();

            usdFedFundSet.Add(USD_FED_FUND);
            IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet;
            ISet <Index> usdLibor3Set = new HashSet <Index>();

            usdLibor3Set.Add(USD_LIBOR_3M);
            IDX_NAMES[FWD3_CURVE_NAME] = usdLibor3Set;
            ISet <Index> usdLibor6Set = new HashSet <Index>();

            usdLibor6Set.Add(USD_LIBOR_6M);
            IDX_NAMES[FWD6_CURVE_NAME] = usdLibor6Set;
            for (int i = 0; i < DSC_NB_DEPO_NODES; i++)
            {
                BusinessDayAdjustment bda        = BusinessDayAdjustment.of(FOLLOWING, USNY);
                TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY));
                DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])));
            }
            for (int i = 0; i < DSC_NB_OIS_NODES; i++)
            {
                DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i])));
            }
            FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0])));
            for (int i = 0; i < FWD3_NB_FRA_NODES; i++)
            {
                FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1])));
            }
            for (int i = 0; i < FWD3_NB_IRS_NODES; i++)
            {
                FWD3_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1 + FWD3_NB_FRA_NODES])));
            }
            FWD6_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[0])));
            for (int i = 0; i < FWD6_NB_FRA_NODES; i++)
            {
                FWD6_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD6_FRA_TENORS[i], USD_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i + 1])));
            }
            for (int i = 0; i < FWD6_NB_IRS_NODES; i++)
            {
                FWD6_NODES[i + 1 + FWD6_NB_FRA_NODES] = IborIborSwapCurveNode.of(IborIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD6_IRS_TENORS[i]), USD_LIBOR_3M_LIBOR_6M), QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i + 1 + FWD6_NB_FRA_NODES])));
            }
            ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE);

            for (int i = 0; i < DSC_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]);
            }
            for (int i = 0; i < FWD3_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]);
            }
            for (int i = 0; i < FWD6_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD6_ID_VALUE[i])), FWD6_MARKET_QUOTES[i]);
            }
            ALL_QUOTES = builder.build();
            IList <CurveNode[]> groupDsc = new List <CurveNode[]>();

            groupDsc.Add(DSC_NODES);
            CURVES_NODES.Add(groupDsc);
            IList <CurveNode[]> groupFwd3 = new List <CurveNode[]>();

            groupFwd3.Add(FWD3_NODES);
            CURVES_NODES.Add(groupFwd3);
            IList <CurveNode[]> groupFwd6 = new List <CurveNode[]>();

            groupFwd6.Add(FWD6_NODES);
            CURVES_NODES.Add(groupFwd6);
            IList <CurveMetadata> groupDsc = new List <CurveMetadata>();

            groupDsc.Add(DefaultCurveMetadata.builder().curveName(DSCON_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build());
            CURVES_METADATA.Add(groupDsc);
            IList <CurveMetadata> groupFwd3 = new List <CurveMetadata>();

            groupFwd3.Add(DefaultCurveMetadata.builder().curveName(FWD3_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build());
            CURVES_METADATA.Add(groupFwd3);
            IList <CurveMetadata> groupFwd6 = new List <CurveMetadata>();

            groupFwd6.Add(DefaultCurveMetadata.builder().curveName(FWD6_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build());
            CURVES_METADATA.Add(groupFwd6);
        }
        //-----------------------------------------------------------------------
        // XCcy swap with exchange of notional
        public virtual void test_XCcyEur3MSpreadVsUSD3M()
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 24)).endDate(LocalDate.of(2016, 1, 24)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.builder().finalExchange(true).initialExchange(true).amount(ValueSchedule.of(NOTIONAL_EUR)).currency(EUR).build()).calculation(IborRateCalculation.builder().index(EUR_EURIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).spread(ValueSchedule.of(0.0020)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 24)).endDate(LocalDate.of(2016, 1, 24)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.builder().finalExchange(true).initialExchange(true).amount(ValueSchedule.of(NOTIONAL_USD)).currency(USD).build()).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            double pvUsdExpected = 431944.6868;
            double pvEurExpected = -731021.1778;

            DiscountingSwapTradePricer pricer = swapPricer();
            MultiCurrencyAmount        pv     = pricer.presentValue(trade, provider());

            assertEquals(pv.getAmount(USD).Amount, pvUsdExpected, TOLERANCE_PV);
            assertEquals(pv.getAmount(EUR).Amount, pvEurExpected, TOLERANCE_PV);
        }
        private SwapTrade getMtmTrade(bool initialExchange, bool intermediateExchange, bool finalExchange, double?initialNotional)
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 24)).endDate(LocalDate.of(2016, 1, 24)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.builder().finalExchange(finalExchange).initialExchange(initialExchange).amount(ValueSchedule.of(NOTIONAL_EUR)).currency(EUR).build()).calculation(IborRateCalculation.builder().index(EUR_EURIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).spread(ValueSchedule.of(0.0020)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 24)).endDate(LocalDate.of(2016, 1, 24)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.builder().finalExchange(finalExchange).initialExchange(initialExchange).intermediateExchange(intermediateExchange).amount(ValueSchedule.of(NOTIONAL_USD)).currency(USD).fxReset(FxResetCalculation.builder().fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).referenceCurrency(EUR).index(EUR_USD_WM).initialNotionalValue(initialNotional).build()).build()).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            return(SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(payLeg, receiveLeg)).build());
        }
 internal static CapitalIndexedBond sut2()
 {
     return(CapitalIndexedBond.builder().securityId(SECURITY_ID2).notional(5.0e7).currency(GBP).dayCount(NL_365).rateCalculation(InflationRateCalculation.builder().index(GB_RPI).lag(Period.ofMonths(2)).indexCalculationMethod(INTERPOLATED).firstIndexValue(124.556).build()).exCouponPeriod(EX_COUPON).legalEntityId(LegalEntityId.of("OG-Ticker", "US-Govt-1")).yieldConvention(GB_IL_FLOAT).settlementDateOffset(DaysAdjustment.ofBusinessDays(2, GBLO)).accrualSchedule(PeriodicSchedule.of(START, END, FREQUENCY, BusinessDayAdjustment.of(BusinessDayConventions.FOLLOWING, GBLO), StubConvention.NONE, RollConventions.NONE)).build());
 }
        //-----------------------------------------------------------------------
        public virtual void floatingSwapLeg()
        {
            // a PeriodicSchedule generates a schedule of accrual periods
            // - interest is accrued every 6 months from 2014-02-12 to 2014-07-31
            // - accrual period dates are adjusted "modified following" using the "GBLO" holiday calendar
            // - there will be a long initial stub
            // - the regular accrual period dates will be at the end-of-month
            PeriodicSchedule accrualSchedule = PeriodicSchedule.builder().startDate(LocalDate.of(2014, 2, 12)).endDate(LocalDate.of(2016, 7, 31)).businessDayAdjustment(BusinessDayAdjustment.of(MODIFIED_FOLLOWING, HolidayCalendarIds.GBLO)).frequency(Frequency.P6M).stubConvention(StubConvention.LONG_INITIAL).rollConvention(RollConventions.EOM).build();
            // a PaymentSchedule generates a schedule of payment periods, based on the accrual schedule
            // - payments are every 6 months
            // - payments are 2 business days after the end of the period
            // - no compounding is needed as the payment schedule matches the accrual schedule
            PaymentSchedule paymentSchedule = PaymentSchedule.builder().paymentFrequency(Frequency.P6M).paymentRelativeTo(PaymentRelativeTo.PERIOD_END).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, HolidayCalendarIds.GBLO)).build();
            // a NotionalSchedule generates a schedule of notional amounts, based on the payment schedule
            // - in this simple case the notional is 1 million GBP and does not change
            NotionalSchedule notionalSchedule = NotionalSchedule.of(Currency.GBP, 1_000_000);
            // a RateCalculationSwapLeg can represent a fixed or floating swap leg
            // - an IborRateCalculation is used to represent a floating Ibor rate
            // - the "Act/Act ISDA" day count is used
            // - the index is GBP LIBOR 6M
            // - fixing is 2 days before the start of the period using the "GBLO" holiday calendar
            RateCalculationSwapLeg swapLeg = RateCalculationSwapLeg.builder().payReceive(PayReceive.RECEIVE).accrualSchedule(accrualSchedule).paymentSchedule(paymentSchedule).notionalSchedule(notionalSchedule).calculation(IborRateCalculation.builder().dayCount(DayCounts.ACT_ACT_ISDA).index(IborIndices.GBP_LIBOR_6M).fixingRelativeTo(FixingRelativeTo.PERIOD_START).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, HolidayCalendarIds.GBLO)).build()).build();
            // a ResolvedSwapLeg has all the dates of the cash flows
            // it remains valid so long as the holiday calendar does not change
            ResolvedSwapLeg resolvedLeg = swapLeg.resolve(ReferenceData.standard());

            Console.WriteLine("===== Floating =====");
            Console.WriteLine(JodaBeanSer.PRETTY.xmlWriter().write(swapLeg));
            Console.WriteLine();
            Console.WriteLine("===== Floating resolved =====");
            Console.WriteLine(JodaBeanSer.PRETTY.xmlWriter().write(resolvedLeg));
            Console.WriteLine();
        }
Exemplo n.º 7
0
        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);
        }
Exemplo n.º 8
0
        static CalibrationInflationUsdTest()
        {
            DSC_NAMES[DSCON_CURVE_NAME] = USD;
            ISet <Index> usdFedFundSet = new HashSet <Index>();

            usdFedFundSet.Add(USD_FED_FUND);
            IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet;
            ISet <Index> usdLibor3Set = new HashSet <Index>();

            usdLibor3Set.Add(USD_LIBOR_3M);
            IDX_NAMES[CPI_CURVE_NAME] = usdLibor3Set;
            for (int i = 0; i < DSC_NB_DEPO_NODES; i++)
            {
                BusinessDayAdjustment bda        = BusinessDayAdjustment.of(FOLLOWING, USNY);
                TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY));
                DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])));
            }
            for (int i = 0; i < DSC_NB_OIS_NODES; i++)
            {
                DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i])));
            }
            for (int i = 0; i < CPI_NB_NODES; i++)
            {
                CPI_NODES[i] = FixedInflationSwapCurveNode.builder().template(FixedInflationSwapTemplate.of(Tenor.of(CPI_TENORS[i]), FixedInflationSwapConventions.USD_FIXED_ZC_US_CPI)).rateId(QuoteId.of(StandardId.of(SCHEME, CPI_ID_VALUE[i]))).date(CurveNodeDate.LAST_FIXING).build();
            }
            ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE);

            for (int i = 0; i < DSC_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]);
            }
            for (int i = 0; i < CPI_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, CPI_ID_VALUE[i])), CPI_MARKET_QUOTES[i]);
            }
            builder.addTimeSeries(IndexQuoteId.of(US_CPI_U), TS_USD_CPI);
            ALL_QUOTES = builder.build();
            IList <CurveNode[]> groupDsc = new List <CurveNode[]>();

            groupDsc.Add(DSC_NODES);
            CURVES_NODES.Add(groupDsc);
            IList <CurveNode[]> groupCpi = new List <CurveNode[]>();

            groupCpi.Add(CPI_NODES);
            CURVES_NODES.Add(groupCpi);
        }
        //-------------------------------------------------------------------------
        public virtual void test_CompoundingOisFixed2mVsFedFund12mSwapWithFixing()
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 17)).endDate(LocalDate.of(2014, 3, 17)).frequency(TERM).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(TERM).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, CalendarUSD.NYC)).build()).notionalSchedule(NOTIONAL).calculation(FixedRateCalculation.builder().dayCount(ACT_360).rate(ValueSchedule.of(0.00123)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 1, 17)).endDate(LocalDate.of(2014, 3, 17)).frequency(TERM).businessDayAdjustment(BDA_MF).stubConvention(StubConvention.SHORT_INITIAL).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(TERM).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, CalendarUSD.NYC)).build()).notionalSchedule(NOTIONAL).calculation(OvernightRateCalculation.builder().dayCount(ACT_360).index(USD_FED_FUND).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 1, 15)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, -7352.973875972721, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_AmortizingFixedVsLibor3mSwap()
        {
            ValueAdjustment   stepReduction = ValueAdjustment.ofDeltaAmount(-3_000_000);
            IList <ValueStep> steps         = new List <ValueStep>();

            for (int i = 1; i < 28; i++)
            {
                steps.Add(ValueStep.of(i, stepReduction));
            }
            ValueSchedule notionalSchedule = ValueSchedule.of(100_000_000, steps);
            SwapLeg       receiveLeg       = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2021, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.of(USD, notionalSchedule)).calculation(FixedRateCalculation.builder().dayCount(THIRTY_U_360).rate(ValueSchedule.of(0.016)).build()).build();

            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2021, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).stubConvention(StubConvention.SHORT_INITIAL).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NotionalSchedule.of(USD, notionalSchedule)).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(receiveLeg, payLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, -1850080.2895532502, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_ZeroCouponFixedVsLibor3mSwap()
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2021, 9, 12)).frequency(P12M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(TERM).paymentDateOffset(DaysAdjustment.NONE).compoundingMethod(CompoundingMethod.STRAIGHT).build()).notionalSchedule(NOTIONAL).calculation(FixedRateCalculation.builder().dayCount(THIRTY_U_360).rate(ValueSchedule.of(0.015)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2021, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).stubConvention(StubConvention.SHORT_INITIAL).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(TERM).paymentDateOffset(DaysAdjustment.NONE).compoundingMethod(CompoundingMethod.STRAIGHT).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, 7850279.042216873, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_InterpolatedStub4mFixed6mVsLibor6mSwap()
        {
            SwapLeg receiveLeg = fixedLeg(LocalDate.of(2014, 9, 12), LocalDate.of(2016, 7, 12), P6M, RECEIVE, NOTIONAL, 0.01, StubConvention.SHORT_INITIAL);

            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2016, 7, 12)).frequency(P6M).businessDayAdjustment(BDA_MF).stubConvention(StubConvention.SHORT_INITIAL).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P6M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_6M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).initialStub(IborRateStubCalculation.ofIborInterpolatedRate(USD_LIBOR_3M, USD_LIBOR_6M)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(receiveLeg, payLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, 314215.2347116342, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_BasisCompoundedLibor1mVsLibor3mSwap()
        {
            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 8, 29)).endDate(LocalDate.of(2019, 8, 29)).frequency(P1M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P3M).paymentDateOffset(DaysAdjustment.NONE).compoundingMethod(CompoundingMethod.FLAT).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_1M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 8, 29)).endDate(LocalDate.of(2019, 8, 29)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 8, 27)).build()).product(Swap.of(receiveLeg, payLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, -342874.98367929866, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_BasisLibor3mVsLibor6mSwapWithSpread()
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 8, 29)).endDate(LocalDate.of(2024, 8, 29)).frequency(P6M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P6M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_6M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 8, 29)).endDate(LocalDate.of(2024, 8, 29)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).spread(ValueSchedule.of(0.0010)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 8, 27)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, -21875.376339152455, TOLERANCE_PV);
        }
        //-------------------------------------------------------------------------
        public virtual void test_VanillaFixedVsLibor3mSwapWithFixing()
        {
            SwapLeg payLeg = fixedLeg(LocalDate.of(2013, 9, 12), LocalDate.of(2020, 9, 12), P6M, PAY, NOTIONAL, 0.015, null);

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2013, 9, 12)).endDate(LocalDate.of(2020, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2013, 9, 10)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, 3588376.471608199, TOLERANCE_PV);
        }
        private static Trade createTrade1()
        {
            NotionalSchedule notional = NotionalSchedule.of(Currency.USD, 12_000_000);

            PeriodicSchedule accrual = PeriodicSchedule.builder().startDate(LocalDate.of(2006, 2, 24)).endDate(LocalDate.of(2011, 2, 24)).frequency(Frequency.P3M).businessDayAdjustment(BusinessDayAdjustment.of(MODIFIED_FOLLOWING, HolidayCalendarIds.USNY)).build();

            PaymentSchedule payment = PaymentSchedule.builder().paymentFrequency(Frequency.P3M).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, HolidayCalendarIds.USNY)).build();

            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PayReceive.PAY).accrualSchedule(accrual).paymentSchedule(payment).notionalSchedule(notional).calculation(FixedRateCalculation.of(0.05004, DayCounts.ACT_360)).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(PayReceive.RECEIVE).accrualSchedule(accrual).paymentSchedule(payment).notionalSchedule(notional).calculation(IborRateCalculation.of(IborIndices.USD_LIBOR_3M)).build();

            return(SwapTrade.builder().product(Swap.builder().legs(payLeg, receiveLeg).build()).info(TradeInfo.builder().id(StandardId.of("mn", "14248")).counterparty(StandardId.of("mn", "Dealer A")).settlementDate(LocalDate.of(2006, 2, 24)).build()).build());
        }
Exemplo n.º 17
0
        //-------------------------------------------------------------------------
        public virtual void presentValueVanillaFixedVsLibor1mSwap()
        {
            SwapLeg payLeg = fixedLeg(LocalDate.of(2014, 9, 12), LocalDate.of(2016, 9, 12), Frequency.P6M, PayReceive.PAY, NOTIONAL, 0.0125, null);

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2016, 9, 12)).frequency(Frequency.P1M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(Frequency.P1M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_1M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            SwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 9, 10)).build()).product(Swap.of(payLeg, receiveLeg)).build();

            CurveGroupName groupName    = CurveGroupName.of("Test");
            CurveId        idUsdDsc     = CurveId.of(groupName, StandardDataSets.GROUP1_USD_DSC.Name);
            CurveId        idUsdOn      = CurveId.of(groupName, StandardDataSets.GROUP1_USD_ON.Name);
            CurveId        idUsdL1M     = CurveId.of(groupName, StandardDataSets.GROUP1_USD_L1M.Name);
            CurveId        idUsdL3M     = CurveId.of(groupName, StandardDataSets.GROUP1_USD_L3M.Name);
            CurveId        idUsdL6M     = CurveId.of(groupName, StandardDataSets.GROUP1_USD_L6M.Name);
            MarketData     suppliedData = ImmutableMarketData.builder(VAL_DATE).addValue(idUsdDsc, StandardDataSets.GROUP1_USD_DSC).addValue(idUsdOn, StandardDataSets.GROUP1_USD_ON).addValue(idUsdL1M, StandardDataSets.GROUP1_USD_L1M).addValue(idUsdL3M, StandardDataSets.GROUP1_USD_L3M).addValue(idUsdL6M, StandardDataSets.GROUP1_USD_L6M).build();

            CalculationFunctions functions = StandardComponents.calculationFunctions();

            RatesMarketDataLookup ratesLookup = RatesMarketDataLookup.of(ImmutableMap.of(USD, idUsdDsc), ImmutableMap.of(USD_FED_FUND, idUsdOn, USD_LIBOR_1M, idUsdL1M, USD_LIBOR_3M, idUsdL3M, USD_LIBOR_6M, idUsdL6M));

            // create the calculation runner
            IList <SwapTrade> trades  = ImmutableList.of(trade);
            IList <Column>    columns = ImmutableList.of(Column.of(Measures.PRESENT_VALUE));
            CalculationRules  rules   = CalculationRules.of(functions, USD, ratesLookup);

            // calculate results using the runner
            // using the direct executor means there is no need to close/shutdown the runner
            CalculationRunner runner  = CalculationRunner.of(MoreExecutors.newDirectExecutorService());
            Results           results = runner.calculate(rules, trades, columns, suppliedData, REF_DATA);

//JAVA TO C# CONVERTER WARNING: Java wildcard generics have no direct equivalent in .NET:
//ORIGINAL LINE: com.opengamma.strata.collect.result.Result<?> result = results.get(0, 0);
            Result <object> result = results.get(0, 0);

            assertThat(result).Success;

            CurrencyAmount pv = (CurrencyAmount)result.Value;

            assertThat(pv.Amount).isCloseTo(-1003684.8402, offset(TOLERANCE_PV));
        }
        //-------------------------------------------------------------------------
        public virtual void test_OnAASpreadVsLibor3MSwap()
        {
            SwapLeg payLeg = RateCalculationSwapLeg.builder().payReceive(PAY).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2020, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(IborRateCalculation.builder().index(USD_LIBOR_3M).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, CalendarUSD.NYC, BDA_P)).build()).build();

            SwapLeg receiveLeg = RateCalculationSwapLeg.builder().payReceive(RECEIVE).accrualSchedule(PeriodicSchedule.builder().startDate(LocalDate.of(2014, 9, 12)).endDate(LocalDate.of(2020, 9, 12)).frequency(P3M).businessDayAdjustment(BDA_MF).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(P3M).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(NOTIONAL).calculation(OvernightRateCalculation.builder().dayCount(ACT_360).index(USD_FED_FUND).accrualMethod(OvernightAccrualMethod.AVERAGED).rateCutOffDays(0).spread(ValueSchedule.of(0.0025)).build()).build();

            ResolvedSwapTrade trade = SwapTrade.builder().info(TradeInfo.builder().tradeDate(LocalDate.of(2014, 1, 15)).build()).product(Swap.of(payLeg, receiveLeg)).build().resolve(REF_DATA);

            DiscountingSwapTradePricer pricer = swapPricer();
            CurrencyAmount             pv     = pricer.presentValue(trade, provider()).getAmount(USD);

            assertEquals(pv.Amount, -160663.8362, TOLERANCE_PV);
        }
        // ibor rate leg
        private static SwapLeg iborLeg(LocalDate start, LocalDate end, IborIndex index, PayReceive payReceive, NotionalSchedule notional, StubConvention stubConvention)
        {
            Frequency freq = Frequency.of(index.Tenor.Period);

            return(RateCalculationSwapLeg.builder().payReceive(payReceive).accrualSchedule(PeriodicSchedule.builder().startDate(start).endDate(end).frequency(freq).businessDayAdjustment(BDA_MF).stubConvention(stubConvention).build()).paymentSchedule(PaymentSchedule.builder().paymentFrequency(freq).paymentDateOffset(DaysAdjustment.NONE).build()).notionalSchedule(notional).calculation(IborRateCalculation.builder().index(index).fixingDateOffset(DaysAdjustment.ofBusinessDays(-2, index.FixingCalendar, BDA_P)).build()).build());
        }
        private static FxIndex parseFxIndex(CsvRow row)
        {
            string            name            = row.getField(NAME_FIELD);
            Currency          baseCurrency    = Currency.parse(row.getField(BASE_CURRENCY_FIELD));
            Currency          counterCurrency = Currency.parse(row.getField(COUNTER_CURRENCY_FIELD));
            HolidayCalendarId fixingCal       = HolidayCalendarId.of(row.getField(FIXING_CALENDAR_FIELD));
            int maturityDays = int.Parse(row.getField(MATURITY_DAYS_FIELD));
            HolidayCalendarId maturityCal = HolidayCalendarId.of(row.getField(MATURITY_CALENDAR_FIELD));

            // build result
            return(ImmutableFxIndex.builder().name(name).currencyPair(CurrencyPair.of(baseCurrency, counterCurrency)).fixingCalendar(fixingCal).maturityDateOffset(DaysAdjustment.ofBusinessDays(maturityDays, maturityCal)).build());
        }
        static CalibrationDiscountFactorUsd2FomcDatesOisIrsTest()
        {
            DSC_NAMES[DSCON_CURVE_NAME] = USD;
            ISet <Index> usdFedFundSet = new HashSet <Index>();

            usdFedFundSet.Add(USD_FED_FUND);
            IDX_NAMES[DSCON_CURVE_NAME] = usdFedFundSet;
            ISet <Index> usdLibor3Set = new HashSet <Index>();

            usdLibor3Set.Add(USD_LIBOR_3M);
            IDX_NAMES[FWD3_CURVE_NAME] = usdLibor3Set;
            double fixingValue = 0.002345;
            LocalDateDoubleTimeSeries tsBdUsdLibor3M = LocalDateDoubleTimeSeries.builder().put(VAL_DATE_BD, fixingValue).build();

            TS_BD_LIBOR3M = ImmutableMarketData.builder(VAL_DATE_BD).addTimeSeries(IndexQuoteId.of(USD_LIBOR_3M), tsBdUsdLibor3M).build();
            for (int i = 0; i < DSC_NB_DEPO_NODES; i++)
            {
                BusinessDayAdjustment bda        = BusinessDayAdjustment.of(FOLLOWING, USNY);
                TermDepositConvention convention = ImmutableTermDepositConvention.of("USD-Dep", USD, bda, ACT_360, DaysAdjustment.ofBusinessDays(DSC_DEPO_OFFSET[i], USNY));
                LocalDate             nodeDate   = FOMC_NODES[i];
                if (nodeDate != null)
                {
                    DSC_NODES[i] = TermDepositCurveNode.builder().template(TermDepositTemplate.of(Period.ofDays(1), convention)).rateId(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i]))).date(CurveNodeDate.of(nodeDate)).build();
                }
                else
                {
                    DSC_NODES[i] = TermDepositCurveNode.of(TermDepositTemplate.of(Period.ofDays(1), convention), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])));
                }
            }
            for (int i = 0; i < DSC_NB_OIS_NODES; i++)
            {
                LocalDate nodeDate = FOMC_NODES[DSC_NB_DEPO_NODES + i];
                if (nodeDate != null)
                {
                    DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.builder().template(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS)).rateId(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i]))).date(CurveNodeDate.of(nodeDate)).build();
                }
                else
                {
                    DSC_NODES[DSC_NB_DEPO_NODES + i] = FixedOvernightSwapCurveNode.of(FixedOvernightSwapTemplate.of(Period.ZERO, Tenor.of(DSC_OIS_TENORS[i]), USD_FIXED_1Y_FED_FUND_OIS), QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[DSC_NB_DEPO_NODES + i])));
                }
            }
            FWD3_NODES[0] = IborFixingDepositCurveNode.of(IborFixingDepositTemplate.of(USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[0])));
            for (int i = 0; i < FWD3_NB_FRA_NODES; i++)
            {
                FWD3_NODES[i + 1] = FraCurveNode.of(FraTemplate.of(FWD3_FRA_TENORS[i], USD_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1])));
            }
            for (int i = 0; i < FWD3_NB_IRS_NODES; i++)
            {
                FWD3_NODES[i + 1 + FWD3_NB_FRA_NODES] = FixedIborSwapCurveNode.of(FixedIborSwapTemplate.of(Period.ZERO, Tenor.of(FWD3_IRS_TENORS[i]), USD_FIXED_6M_LIBOR_3M), QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i + 1 + FWD3_NB_FRA_NODES])));
            }
            ImmutableMarketDataBuilder builder = ImmutableMarketData.builder(VAL_DATE_BD);

            for (int i = 0; i < FWD3_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, FWD3_ID_VALUE[i])), FWD3_MARKET_QUOTES[i]);
            }
            for (int i = 0; i < DSC_NB_NODES; i++)
            {
                builder.addValue(QuoteId.of(StandardId.of(SCHEME, DSC_ID_VALUE[i])), DSC_MARKET_QUOTES[i]);
            }
            ALL_QUOTES_BD = builder.build();
            IList <CurveNode[]> groupDsc = new List <CurveNode[]>();

            groupDsc.Add(DSC_NODES);
            CURVES_NODES.Add(groupDsc);
            IList <CurveNode[]> groupFwd3 = new List <CurveNode[]>();

            groupFwd3.Add(FWD3_NODES);
            CURVES_NODES.Add(groupFwd3);
            IList <CurveMetadata> groupDsc = new List <CurveMetadata>();

            groupDsc.Add(DefaultCurveMetadata.builder().curveName(DSCON_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build());
            CURVES_METADATA.Add(groupDsc);
            IList <CurveMetadata> groupFwd3 = new List <CurveMetadata>();

            groupFwd3.Add(DefaultCurveMetadata.builder().curveName(FWD3_CURVE_NAME).xValueType(ValueType.YEAR_FRACTION).yValueType(ValueType.ZERO_RATE).dayCount(CURVE_DC).build());
            CURVES_METADATA.Add(groupFwd3);
        }
Exemplo n.º 22
0
        // parses the payment schedule
        private PaymentSchedule parseSwapPaymentSchedule(XmlElement legEl, XmlElement calcEl, FpmlDocument document)
        {
            // supported elements:
            //  'paymentDates/paymentFrequency'
            //  'paymentDates/payRelativeTo'
            //  'paymentDates/paymentDaysOffset?'
            //  'paymentDates/paymentDatesAdjustments'
            //  'calculationPeriodAmount/calculation/compoundingMethod'
            //  'paymentDates/firstPaymentDate?'
            //  'paymentDates/lastRegularPaymentDate?'
            // ignored elements:
            //  'paymentDates/calculationPeriodDatesReference'
            //  'paymentDates/resetDatesReference'
            //  'paymentDates/valuationDatesReference'
            PaymentSchedule.Builder paymentScheduleBuilder = PaymentSchedule.builder();
            // payment dates
            XmlElement paymentDatesEl = legEl.getChild("paymentDates");

            // frequency
            paymentScheduleBuilder.paymentFrequency(document.parseFrequency(paymentDatesEl.getChild("paymentFrequency")));
            //default for IRS is pay relative to period end; Strata model will apply the defaulting but the values is needed
            //here for first and last payment date checks
            PaymentRelativeTo payRelativeTo = paymentDatesEl.findChild("payRelativeTo").map(el => parsePayRelativeTo(el)).orElse(PaymentRelativeTo.PERIOD_END);

            paymentScheduleBuilder.paymentRelativeTo(payRelativeTo);
            // dates
            if (payRelativeTo == PaymentRelativeTo.PERIOD_END)
            {
                // ignore data if not PeriodEnd and hope schedule is worked out correctly by other means
                // this provides compatibility for old code that ignored these FpML fields
                paymentDatesEl.findChild("firstPaymentDate").map(el => document.parseDate(el)).ifPresent(date => paymentScheduleBuilder.firstRegularStartDate(date));
                paymentDatesEl.findChild("lastRegularPaymentDate").map(el => document.parseDate(el)).ifPresent(date => paymentScheduleBuilder.lastRegularEndDate(date));
            }
            // offset
            Optional <XmlElement> paymentOffsetEl = paymentDatesEl.findChild("paymentDaysOffset");
            BusinessDayAdjustment payAdjustment   = document.parseBusinessDayAdjustments(paymentDatesEl.getChild("paymentDatesAdjustments"));

            if (paymentOffsetEl.Present)
            {
                Period period = document.parsePeriod(paymentOffsetEl.get());
                if (period.toTotalMonths() != 0)
                {
                    throw new FpmlParseException("Invalid 'paymentDatesAdjustments' value, expected days-based period: " + period);
                }
                Optional <XmlElement> dayTypeEl = paymentOffsetEl.get().findChild("dayType");
                bool fixingCalendarDays         = period.Zero || (dayTypeEl.Present && dayTypeEl.get().Content.Equals("Calendar"));
                if (fixingCalendarDays)
                {
                    paymentScheduleBuilder.paymentDateOffset(DaysAdjustment.ofCalendarDays(period.Days, payAdjustment));
                }
                else
                {
                    paymentScheduleBuilder.paymentDateOffset(DaysAdjustment.ofBusinessDays(period.Days, payAdjustment.Calendar));
                }
            }
            else
            {
                paymentScheduleBuilder.paymentDateOffset(DaysAdjustment.ofCalendarDays(0, payAdjustment));
            }
            // compounding
            calcEl.findChild("compoundingMethod").ifPresent(compoundingEl =>
            {
                paymentScheduleBuilder.compoundingMethod(CompoundingMethod.of(compoundingEl.Content));
            });
            return(paymentScheduleBuilder.build());
        }
        //-----------------------------------------------------------------------
        public virtual void fixedSwapLeg()
        {
            // a PeriodicSchedule generates a schedule of accrual periods
            // - interest is accrued every 3 months from 2014-02-12 to 2014-07-31
            // - accrual period dates are adjusted "modified following" using the "GBLO" holiday calendar
            // - there will be a long initial stub
            // - the regular accrual period dates will be at the end-of-month
            PeriodicSchedule accrualSchedule = PeriodicSchedule.builder().startDate(LocalDate.of(2014, 2, 12)).endDate(LocalDate.of(2016, 7, 31)).businessDayAdjustment(BusinessDayAdjustment.of(MODIFIED_FOLLOWING, HolidayCalendarIds.GBLO)).frequency(Frequency.P3M).stubConvention(StubConvention.LONG_INITIAL).rollConvention(RollConventions.EOM).build();
            // a PaymentSchedule generates a schedule of payment periods, based on the accrual schedule
            // - payments are every 6 months
            // - payments are 2 business days after the end of the period
            // - straight compounding is used (the payments are less frequent than the accrual, so compounding occurs)
            PaymentSchedule paymentSchedule = PaymentSchedule.builder().paymentFrequency(Frequency.P6M).paymentRelativeTo(PaymentRelativeTo.PERIOD_END).paymentDateOffset(DaysAdjustment.ofBusinessDays(2, HolidayCalendarIds.GBLO)).compoundingMethod(CompoundingMethod.STRAIGHT).build();
            // a NotionalSchedule generates a schedule of notional amounts, based on the payment schedule
            // - in this simple case the notional is 1 million GBP and does not change
            NotionalSchedule notionalSchedule = NotionalSchedule.of(Currency.GBP, 1_000_000);
            // a RateCalculationSwapLeg can represent a fixed or floating swap leg
            // - a FixedRateCalculation is used to represent a fixed rate
            // - the "Act/Act ISDA" day count is used
            // - the rate starts at 0.8% and reduces to 0.7%
            RateCalculationSwapLeg swapLeg = RateCalculationSwapLeg.builder().payReceive(PayReceive.PAY).accrualSchedule(accrualSchedule).paymentSchedule(paymentSchedule).notionalSchedule(notionalSchedule).calculation(FixedRateCalculation.builder().dayCount(DayCounts.ACT_ACT_ISDA).rate(ValueSchedule.of(0.008, ValueStep.of(LocalDate.of(2015, 1, 31), ValueAdjustment.ofReplace(0.007)))).build()).build();
            // a ResolvedSwapLeg has all the dates of the cash flows
            // it remains valid so long as the holiday calendar does not change
            ResolvedSwapLeg resolvedLeg = swapLeg.resolve(ReferenceData.standard());

            Console.WriteLine("===== Fixed =====");
            Console.WriteLine(JodaBeanSer.PRETTY.xmlWriter().write(swapLeg));
            Console.WriteLine();
            Console.WriteLine("===== Fixed resolved =====");
            Console.WriteLine(JodaBeanSer.PRETTY.xmlWriter().write(resolvedLeg));
            Console.WriteLine();
        }
 public virtual void test_builder_fail()
 {
     // negative settlement date offset
     assertThrowsIllegalArg(() => CapitalIndexedBond.builder().securityId(SECURITY_ID).notional(NOTIONAL).currency(USD).dayCount(ACT_ACT_ISDA).rateCalculation(RATE_CALC).exCouponPeriod(EX_COUPON).legalEntityId(LEGAL_ENTITY).yieldConvention(US_IL_REAL).settlementDateOffset(DaysAdjustment.ofBusinessDays(-2, USNY)).accrualSchedule(SCHEDULE).build());
     // positive ex-coupon days
     assertThrowsIllegalArg(() => CapitalIndexedBond.builder().securityId(SECURITY_ID).notional(NOTIONAL).currency(USD).dayCount(ACT_ACT_ISDA).rateCalculation(RATE_CALC).exCouponPeriod(DaysAdjustment.ofCalendarDays(7, BusinessDayAdjustment.of(BusinessDayConventions.FOLLOWING, USNY))).legalEntityId(LEGAL_ENTITY).yieldConvention(US_IL_REAL).settlementDateOffset(SETTLE_OFFSET).accrualSchedule(SCHEDULE).build());
 }