public void testFairRate() { // Testing vanilla-swap calculation of fair fixed rate CommonVars vars = new CommonVars(); int[] lengths = new int[] { 1, 2, 5, 10, 20 }; double[] spreads = new double[] { -0.001, -0.01, 0.0, 0.01, 0.001 }; for (int i = 0; i < lengths.Length; i++) { for (int j = 0; j < spreads.Length; j++) { VanillaSwap swap = vars.makeSwap(lengths[i], 0.0, spreads[j]); swap = vars.makeSwap(lengths[i], swap.fairRate(), spreads[j]); if (Math.Abs(swap.NPV()) > 1.0e-10) { QAssert.Fail("recalculating with implied rate:\n" + " length: " + lengths[i] + " years\n" + " floating spread: " + spreads[j] + "\n" + " swap value: " + swap.NPV()); } } } }
public Swaption value() { Date evaluationDate = Settings.evaluationDate(); Calendar fixingCalendar = swapIndex_.fixingCalendar(); fixingDate_ = fixingCalendar.advance(evaluationDate, optionTenor_, optionConvention_); if (exerciseDate_ == null) { exercise_ = new EuropeanExercise(fixingDate_); } else { Utils.QL_REQUIRE(exerciseDate_ <= fixingDate_, () => "exercise date (" + exerciseDate_ + ") must be less " + "than or equal to fixing date (" + fixingDate_ + ")"); exercise_ = new EuropeanExercise(exerciseDate_); } double usedStrike; if (strike_ == null) { // ATM on the forecasting curve Utils.QL_REQUIRE(!swapIndex_.forwardingTermStructure().empty(), () => "no forecasting term structure set to " + swapIndex_.name()); VanillaSwap temp = swapIndex_.underlyingSwap(fixingDate_); temp.setPricingEngine(new DiscountingSwapEngine(swapIndex_.forwardingTermStructure())); usedStrike = temp.fairRate(); } else { usedStrike = strike_.Value; } BusinessDayConvention bdc = swapIndex_.fixedLegConvention(); underlyingSwap_ = new MakeVanillaSwap(swapIndex_.tenor(), swapIndex_.iborIndex(), usedStrike) .withEffectiveDate(swapIndex_.valueDate(fixingDate_)) .withFixedLegCalendar(swapIndex_.fixingCalendar()) .withFixedLegDayCount(swapIndex_.dayCounter()) .withFixedLegConvention(bdc) .withFixedLegTerminationDateConvention(bdc) .withType(underlyingType_) .withNominal(nominal_); Swaption swaption = new Swaption(underlyingSwap_, exercise_, delivery_, settlementMethod_); swaption.setPricingEngine(engine_); return(swaption); }
public void testSwaptionPricing() { // Testing forward swap and swaption pricing const int size = 10; const int steps = 8 * size; #if QL_USE_INDEXED_COUPON const double tolerance = 1e-6; #else const double tolerance = 1e-12; #endif List <Date> dates = new List <Date>(); List <double> rates = new List <double>(); dates.Add(new Date(4, 9, 2005)); dates.Add(new Date(4, 9, 2011)); rates.Add(0.04); rates.Add(0.08); IborIndex index = makeIndex(dates, rates); LiborForwardModelProcess process = new LiborForwardModelProcess(size, index); LmCorrelationModel corrModel = new LmExponentialCorrelationModel(size, 0.5); LmVolatilityModel volaModel = new LmLinearExponentialVolatilityModel(process.fixingTimes(), 0.291, 1.483, 0.116, 0.00001); // set-up pricing engine process.setCovarParam((LfmCovarianceParameterization) new LfmCovarianceProxy(volaModel, corrModel)); // set-up a small Monte-Carlo simulation to price swations List <double> tmp = process.fixingTimes(); TimeGrid grid = new TimeGrid(tmp, tmp.Count, steps); List <int> location = new List <int>(); for (int i = 0; i < tmp.Count; ++i) { location.Add(grid.index(tmp[i])); } ulong seed = 42; const int nrTrails = 5000; LowDiscrepancy.icInstance = new InverseCumulativeNormal(); IRNG rsg = (InverseCumulativeRsg <RandomSequenceGenerator <MersenneTwisterUniformRng> , InverseCumulativeNormal>) new PseudoRandom().make_sequence_generator(process.factors() * (grid.size() - 1), seed); MultiPathGenerator <IRNG> generator = new MultiPathGenerator <IRNG>(process, grid, rsg, false); LiborForwardModel liborModel = new LiborForwardModel(process, volaModel, corrModel); Calendar calendar = index.fixingCalendar(); DayCounter dayCounter = index.forwardingTermStructure().link.dayCounter(); BusinessDayConvention convention = index.businessDayConvention(); Date settlement = index.forwardingTermStructure().link.referenceDate(); SwaptionVolatilityMatrix m = liborModel.getSwaptionVolatilityMatrix(); for (int i = 1; i < size; ++i) { for (int j = 1; j <= size - i; ++j) { Date fwdStart = settlement + new Period(6 * i, TimeUnit.Months); Date fwdMaturity = fwdStart + new Period(6 * j, TimeUnit.Months); Schedule schedule = new Schedule(fwdStart, fwdMaturity, index.tenor(), calendar, convention, convention, DateGeneration.Rule.Forward, false); double swapRate = 0.0404; VanillaSwap forwardSwap = new VanillaSwap(VanillaSwap.Type.Receiver, 1.0, schedule, swapRate, dayCounter, schedule, index, 0.0, index.dayCounter()); forwardSwap.setPricingEngine(new DiscountingSwapEngine(index.forwardingTermStructure())); // check forward pricing first double expected = forwardSwap.fairRate(); double calculated = liborModel.S_0(i - 1, i + j - 1); if (Math.Abs(expected - calculated) > tolerance) { QAssert.Fail("Failed to reproduce fair forward swap rate" + "\n calculated: " + calculated + "\n expected: " + expected); } swapRate = forwardSwap.fairRate(); forwardSwap = new VanillaSwap(VanillaSwap.Type.Receiver, 1.0, schedule, swapRate, dayCounter, schedule, index, 0.0, index.dayCounter()); forwardSwap.setPricingEngine(new DiscountingSwapEngine(index.forwardingTermStructure())); if (i == j && i <= size / 2) { IPricingEngine engine = new LfmSwaptionEngine(liborModel, index.forwardingTermStructure()); Exercise exercise = new EuropeanExercise(process.fixingDates()[i]); Swaption swaption = new Swaption(forwardSwap, exercise); swaption.setPricingEngine(engine); GeneralStatistics stat = new GeneralStatistics(); for (int n = 0; n < nrTrails; ++n) { Sample <IPath> path = (n % 2 != 0) ? generator.antithetic() : generator.next(); MultiPath value = path.value as MultiPath; Utils.QL_REQUIRE(value != null, () => "Invalid Path"); //Sample<MultiPath> path = generator.next(); List <double> rates_ = new InitializedList <double>(size); for (int k = 0; k < process.size(); ++k) { rates_[k] = value[k][location[i]]; } List <double> dis = process.discountBond(rates_); double npv = 0.0; for (int k = i; k < i + j; ++k) { npv += (swapRate - rates_[k]) * (process.accrualEndTimes()[k] - process.accrualStartTimes()[k]) * dis[k]; } stat.add(Math.Max(npv, 0.0)); } if (Math.Abs(swaption.NPV() - stat.mean()) > stat.errorEstimate() * 2.35) { QAssert.Fail("Failed to reproduce swaption npv" + "\n calculated: " + stat.mean() + "\n expected: " + swaption.NPV()); } } } } }
static void Main(string[] args) { DateTime startTime = DateTime.Now; Date todaysDate = new Date(15, Month.February, 2002); Calendar calendar = new TARGET(); Date settlementDate = new Date(19, Month.February, 2002); Settings.instance().setEvaluationDate(todaysDate); // flat yield term structure impling 1x5 swap at 5% Quote flatRate = new SimpleQuote(0.04875825); FlatForward myTermStructure = new FlatForward( settlementDate, new QuoteHandle(flatRate), new Actual365Fixed()); RelinkableYieldTermStructureHandle rhTermStructure = new RelinkableYieldTermStructureHandle(); rhTermStructure.linkTo(myTermStructure); // Define the ATM/OTM/ITM swaps Period fixedLegTenor = new Period(1, TimeUnit.Years); BusinessDayConvention fixedLegConvention = BusinessDayConvention.Unadjusted; BusinessDayConvention floatingLegConvention = BusinessDayConvention.ModifiedFollowing; DayCounter fixedLegDayCounter = new Thirty360(Thirty360.Convention.European); Period floatingLegTenor = new Period(6, TimeUnit.Months); double dummyFixedRate = 0.03; IborIndex indexSixMonths = new Euribor6M(rhTermStructure); Date startDate = calendar.advance(settlementDate, 1, TimeUnit.Years, floatingLegConvention); Date maturity = calendar.advance(startDate, 5, TimeUnit.Years, floatingLegConvention); Schedule fixedSchedule = new Schedule(startDate, maturity, fixedLegTenor, calendar, fixedLegConvention, fixedLegConvention, DateGeneration.Rule.Forward, false); Schedule floatSchedule = new Schedule(startDate, maturity, floatingLegTenor, calendar, floatingLegConvention, floatingLegConvention, DateGeneration.Rule.Forward, false); VanillaSwap swap = new VanillaSwap( VanillaSwap.Type.Payer, 1000.0, fixedSchedule, dummyFixedRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); DiscountingSwapEngine swapEngine = new DiscountingSwapEngine(rhTermStructure); swap.setPricingEngine(swapEngine); double fixedATMRate = swap.fairRate(); double fixedOTMRate = fixedATMRate * 1.2; double fixedITMRate = fixedATMRate * 0.8; VanillaSwap atmSwap = new VanillaSwap( VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedATMRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); VanillaSwap otmSwap = new VanillaSwap( VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedOTMRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); VanillaSwap itmSwap = new VanillaSwap( VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedITMRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); atmSwap.setPricingEngine(swapEngine); otmSwap.setPricingEngine(swapEngine); itmSwap.setPricingEngine(swapEngine); // defining the swaptions to be used in model calibration PeriodVector swaptionMaturities = new PeriodVector(); swaptionMaturities.Add(new Period(1, TimeUnit.Years)); swaptionMaturities.Add(new Period(2, TimeUnit.Years)); swaptionMaturities.Add(new Period(3, TimeUnit.Years)); swaptionMaturities.Add(new Period(4, TimeUnit.Years)); swaptionMaturities.Add(new Period(5, TimeUnit.Years)); CalibrationHelperVector swaptions = new CalibrationHelperVector(); // List of times that have to be included in the timegrid DoubleVector times = new DoubleVector(); for (int i = 0; i < numRows; i++) { int j = numCols - i - 1; // 1x5, 2x4, 3x3, 4x2, 5x1 int k = i * numCols + j; Quote vol = new SimpleQuote(swaptionVols[k]); SwaptionHelper helper = new SwaptionHelper( swaptionMaturities[i], new Period(swapLengths[j], TimeUnit.Years), new QuoteHandle(vol), indexSixMonths, indexSixMonths.tenor(), indexSixMonths.dayCounter(), indexSixMonths.dayCounter(), rhTermStructure); swaptions.Add(helper); times.AddRange(helper.times()); } // Building time-grid TimeGrid grid = new TimeGrid(times, 30); // defining the models // G2 modelG2 = new G2(rhTermStructure)); HullWhite modelHW = new HullWhite(rhTermStructure); HullWhite modelHW2 = new HullWhite(rhTermStructure); BlackKarasinski modelBK = new BlackKarasinski(rhTermStructure); // model calibrations // Console.WriteLine( "G2 (analytic formulae) calibration" ); // for (int i=0; i<swaptions.Count; i++) // NQuantLibc.as_black_helper(swaptions[i]).setPricingEngine( // new G2SwaptionEngine( modelG2, 6.0, 16 ) ); // // calibrateModel( modelG2, swaptions, 0.05); // Console.WriteLine( "calibrated to:" ); // Console.WriteLine( "a = " + modelG2.parameters()[0] ); // Console.WriteLine( "sigma = " + modelG2.parameters()[1] ); // Console.WriteLine( "b = " + modelG2.parameters()[2] ); // Console.WriteLine( "eta = " + modelG2.parameters()[3] ); // Console.WriteLine( "rho = " + modelG2.parameters()[4] ); Console.WriteLine("Hull-White (analytic formulae) calibration"); for (int i = 0; i < swaptions.Count; i++) { NQuantLibc.as_black_helper(swaptions[i]).setPricingEngine( new JamshidianSwaptionEngine(modelHW)); } calibrateModel(modelHW, swaptions, 0.05); // Console.WriteLine( "calibrated to:" ); // Console.WriteLine( "a = " + modelHW.parameters()[0] ); // Console.WriteLine( "sigma = " + modelHW.parameters()[1] ); Console.WriteLine("Hull-White (numerical) calibration"); for (int i = 0; i < swaptions.Count; i++) { NQuantLibc.as_black_helper(swaptions[i]).setPricingEngine( new TreeSwaptionEngine(modelHW2, grid)); } calibrateModel(modelHW2, swaptions, 0.05); // std::cout << "calibrated to:\n" // << "a = " << modelHW2->params()[0] << ", " // << "sigma = " << modelHW2->params()[1] // << std::endl << std::endl; Console.WriteLine("Black-Karasinski (numerical) calibration"); for (int i = 0; i < swaptions.Count; i++) { NQuantLibc.as_black_helper(swaptions[i]).setPricingEngine( new TreeSwaptionEngine(modelBK, grid)); } calibrateModel(modelBK, swaptions, 0.05); // std::cout << "calibrated to:\n" // << "a = " << modelBK->params()[0] << ", " // << "sigma = " << modelBK->params()[1] // << std::endl << std::endl; // ATM Bermudan swaption pricing Console.WriteLine("Payer bermudan swaption struck at {0} (ATM)", fixedATMRate); DateVector bermudanDates = new DateVector(); Schedule schedule = new Schedule(startDate, maturity, new Period(3, TimeUnit.Months), calendar, BusinessDayConvention.Following, BusinessDayConvention.Following, DateGeneration.Rule.Forward, false); for (uint i = 0; i < schedule.size(); i++) { bermudanDates.Add(schedule.date(i)); } Exercise bermudaExercise = new BermudanExercise(bermudanDates); Swaption bermudanSwaption = new Swaption(atmSwap, bermudaExercise); bermudanSwaption.setPricingEngine( new TreeSwaptionEngine(modelHW, 50)); Console.WriteLine("HW: " + bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine( new TreeSwaptionEngine(modelHW2, 50)); Console.WriteLine("HW (num): " + bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine( new TreeSwaptionEngine(modelBK, 50)); Console.WriteLine("BK (num): " + bermudanSwaption.NPV()); DateTime endTime = DateTime.Now; TimeSpan delta = endTime - startTime; Console.WriteLine(); Console.WriteLine("Run completed in {0} s", delta.TotalSeconds); Console.WriteLine(); }
public VanillaSwap value() { Date startDate; if (effectiveDate_ != null) { startDate = effectiveDate_; } else { Date refDate = Settings.evaluationDate(); // if the evaluation date is not a business day // then move to the next business day refDate = floatCalendar_.adjust(refDate); Date spotDate = floatCalendar_.advance(refDate, new Period(settlementDays_, TimeUnit.Days)); startDate = spotDate + forwardStart_; if (forwardStart_.length() < 0) { startDate = floatCalendar_.adjust(startDate, BusinessDayConvention.Preceding); } else { startDate = floatCalendar_.adjust(startDate, BusinessDayConvention.Following); } } Date endDate = terminationDate_; if (endDate == null) { if (floatEndOfMonth_) { endDate = floatCalendar_.advance(startDate, swapTenor_, BusinessDayConvention.ModifiedFollowing, floatEndOfMonth_); } else { endDate = startDate + swapTenor_; } } Currency curr = iborIndex_.currency(); Period fixedTenor = null; if (fixedTenor_ != null) { fixedTenor = fixedTenor_; } else { if ((curr == new EURCurrency()) || (curr == new USDCurrency()) || (curr == new CHFCurrency()) || (curr == new SEKCurrency()) || (curr == new GBPCurrency() && swapTenor_ <= new Period(1, TimeUnit.Years))) { fixedTenor = new Period(1, TimeUnit.Years); } else if ((curr == new GBPCurrency() && swapTenor_ > new Period(1, TimeUnit.Years) || (curr == new JPYCurrency()) || (curr == new AUDCurrency() && swapTenor_ >= new Period(4, TimeUnit.Years)))) { fixedTenor = new Period(6, TimeUnit.Months); } else if ((curr == new HKDCurrency() || (curr == new AUDCurrency() && swapTenor_ < new Period(4, TimeUnit.Years)))) { fixedTenor = new Period(3, TimeUnit.Months); } else { Utils.QL_FAIL("unknown fixed leg default tenor for " + curr); } } Schedule fixedSchedule = new Schedule(startDate, endDate, fixedTenor, fixedCalendar_, fixedConvention_, fixedTerminationDateConvention_, fixedRule_, fixedEndOfMonth_, fixedFirstDate_, fixedNextToLastDate_); Schedule floatSchedule = new Schedule(startDate, endDate, floatTenor_, floatCalendar_, floatConvention_, floatTerminationDateConvention_, floatRule_, floatEndOfMonth_, floatFirstDate_, floatNextToLastDate_); DayCounter fixedDayCount = null; if (fixedDayCount_ != null) { fixedDayCount = fixedDayCount_; } else { if (curr == new USDCurrency()) { fixedDayCount = new Actual360(); } else if (curr == new EURCurrency() || curr == new CHFCurrency() || curr == new SEKCurrency()) { fixedDayCount = new Thirty360(Thirty360.Thirty360Convention.BondBasis); } else if (curr == new GBPCurrency() || curr == new JPYCurrency() || curr == new AUDCurrency() || curr == new HKDCurrency()) { fixedDayCount = new Actual365Fixed(); } else { Utils.QL_FAIL("unknown fixed leg day counter for " + curr); } } double?usedFixedRate = fixedRate_; if (fixedRate_ == null) { VanillaSwap temp = new VanillaSwap(type_, nominal_, fixedSchedule, 0.0, fixedDayCount, floatSchedule, iborIndex_, floatSpread_, floatDayCount_); if (engine_ == null) { Handle <YieldTermStructure> disc = iborIndex_.forwardingTermStructure(); Utils.QL_REQUIRE(!disc.empty(), () => "null term structure set to this instance of " + iborIndex_.name()); bool includeSettlementDateFlows = false; IPricingEngine engine = new DiscountingSwapEngine(disc, includeSettlementDateFlows); temp.setPricingEngine(engine); } else { temp.setPricingEngine(engine_); } usedFixedRate = temp.fairRate(); } VanillaSwap swap = new VanillaSwap(type_, nominal_, fixedSchedule, usedFixedRate.Value, fixedDayCount, floatSchedule, iborIndex_, floatSpread_, floatDayCount_); if (engine_ == null) { Handle <YieldTermStructure> disc = iborIndex_.forwardingTermStructure(); bool includeSettlementDateFlows = false; IPricingEngine engine = new DiscountingSwapEngine(disc, includeSettlementDateFlows); swap.setPricingEngine(engine); } else { swap.setPricingEngine(engine_); } return(swap); }
private static void Main() { DateTime startTime = DateTime.Now; var todaysDate = new DateTime(2002, 2, 15); Settings.instance().setEvaluationDate(todaysDate); Calendar calendar = new TARGET(); var settlementDate = new Date(19, Month.February, 2002); // flat yield term structure impling 1x5 swap at 5% Quote flatRate = new SimpleQuote(0.04875825); var myTermStructure = new FlatForward(settlementDate, new QuoteHandle(flatRate), new Actual365Fixed()); var rhTermStructure = new RelinkableYieldTermStructureHandle(); rhTermStructure.linkTo(myTermStructure); // Define the ATM/OTM/ITM swaps var fixedLegTenor = new Period(1, TimeUnit.Years); const BusinessDayConvention fixedLegConvention = BusinessDayConvention.Unadjusted; const BusinessDayConvention floatingLegConvention = BusinessDayConvention.ModifiedFollowing; DayCounter fixedLegDayCounter = new Thirty360(Thirty360.Convention.European); var floatingLegTenor = new Period(6, TimeUnit.Months); const double dummyFixedRate = 0.03; IborIndex indexSixMonths = new Euribor6M(rhTermStructure); Date startDate = calendar.advance(settlementDate, 1, TimeUnit.Years, floatingLegConvention); Date maturity = calendar.advance(startDate, 5, TimeUnit.Years, floatingLegConvention); var fixedSchedule = new Schedule(startDate, maturity, fixedLegTenor, calendar, fixedLegConvention, fixedLegConvention, DateGeneration.Rule.Forward, false); var floatSchedule = new Schedule(startDate, maturity, floatingLegTenor, calendar, floatingLegConvention, floatingLegConvention, DateGeneration.Rule.Forward, false); var swap = new VanillaSwap(VanillaSwap.Type.Payer, 1000.0, fixedSchedule, dummyFixedRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); var swapEngine = new DiscountingSwapEngine(rhTermStructure); swap.setPricingEngine(swapEngine); double fixedAtmRate = swap.fairRate(); double fixedOtmRate = fixedAtmRate * 1.2; double fixedItmRate = fixedAtmRate * 0.8; var atmSwap = new VanillaSwap(VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedAtmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); var otmSwap = new VanillaSwap(VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedOtmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); var itmSwap = new VanillaSwap(VanillaSwap.Type.Payer, 1000.0, fixedSchedule, fixedItmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); atmSwap.setPricingEngine(swapEngine); otmSwap.setPricingEngine(swapEngine); itmSwap.setPricingEngine(swapEngine); // defining the swaptions to be used in model calibration var swaptionMaturities = new PeriodVector { new Period(1, TimeUnit.Years), new Period(2, TimeUnit.Years), new Period(3, TimeUnit.Years), new Period(4, TimeUnit.Years), new Period(5, TimeUnit.Years) }; var swaptions = new CalibrationHelperVector(); // List of times that have to be included in the timegrid var times = new DoubleVector(); for (int i = 0; i < NUM_ROWS; i++) { int j = NUM_COLS - i - 1; // 1x5, 2x4, 3x3, 4x2, 5x1 int k = i * NUM_COLS + j; Quote vol = new SimpleQuote(SWAPTION_VOLS[k]); var helper = new SwaptionHelper(swaptionMaturities[i], new Period(SWAP_LENGHTS[j], TimeUnit.Years), new QuoteHandle(vol), indexSixMonths, indexSixMonths.tenor(), indexSixMonths.dayCounter(), indexSixMonths.dayCounter(), rhTermStructure); swaptions.Add(helper); times.AddRange(helper.times()); } // Building time-grid var grid = new TimeGrid(times, 30); // defining the models // G2 modelG2 = new G2(rhTermStructure)); var modelHw = new HullWhite(rhTermStructure); var modelHw2 = new HullWhite(rhTermStructure); var modelBk = new BlackKarasinski(rhTermStructure); // model calibrations Console.WriteLine("Hull-White (analytic formulae) calibration"); foreach (CalibrationHelper calibrationHelper in swaptions) { NQuantLibc.as_black_helper(calibrationHelper).setPricingEngine(new JamshidianSwaptionEngine(modelHw)); } CalibrateModel(modelHw, swaptions, 0.05); Console.WriteLine("Hull-White (numerical) calibration"); foreach (CalibrationHelper calibrationHelper in swaptions) { NQuantLibc.as_black_helper(calibrationHelper).setPricingEngine(new TreeSwaptionEngine(modelHw2, grid)); } CalibrateModel(modelHw2, swaptions, 0.05); Console.WriteLine("Black-Karasinski (numerical) calibration"); foreach (CalibrationHelper calibrationHelper in swaptions) { NQuantLibc.as_black_helper(calibrationHelper).setPricingEngine(new TreeSwaptionEngine(modelBk, grid)); } CalibrateModel(modelBk, swaptions, 0.05); // ATM Bermudan swaption pricing Console.WriteLine("Payer bermudan swaption struck at {0} (ATM)", fixedAtmRate); var bermudanDates = new DateVector(); var schedule = new Schedule(startDate, maturity, new Period(3, TimeUnit.Months), calendar, BusinessDayConvention.Following, BusinessDayConvention.Following, DateGeneration.Rule.Forward, false); for (uint i = 0; i < schedule.size(); i++) { bermudanDates.Add(schedule.date(i)); } Exercise bermudaExercise = new BermudanExercise(bermudanDates); var bermudanSwaption = new Swaption(atmSwap, bermudaExercise); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw, 50)); Console.WriteLine("HW: " + bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw2, 50)); Console.WriteLine("HW (num): " + bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelBk, 50)); Console.WriteLine("BK (num): " + bermudanSwaption.NPV()); DateTime endTime = DateTime.Now; TimeSpan delta = endTime - startTime; Console.WriteLine(); Console.WriteLine("Run completed in {0} s", delta.TotalSeconds); Console.WriteLine(); }
static void Main(string[] args) { DateTime timer = DateTime.Now; Date todaysDate = new Date(15, 2, 2002); Calendar calendar = new TARGET(); Date settlementDate = new Date(19, 2, 2002); Settings.setEvaluationDate(todaysDate); // flat yield term structure impling 1x5 swap at 5% Quote flatRate = new SimpleQuote(0.04875825); Handle <YieldTermStructure> rhTermStructure = new Handle <YieldTermStructure>( new FlatForward(settlementDate, new Handle <Quote>(flatRate), new Actual365Fixed())); // Define the ATM/OTM/ITM swaps Frequency fixedLegFrequency = Frequency.Annual; BusinessDayConvention fixedLegConvention = BusinessDayConvention.Unadjusted; BusinessDayConvention floatingLegConvention = BusinessDayConvention.ModifiedFollowing; DayCounter fixedLegDayCounter = new Thirty360(Thirty360.Thirty360Convention.European); Frequency floatingLegFrequency = Frequency.Semiannual; VanillaSwap.Type type = VanillaSwap.Type.Payer; double dummyFixedRate = 0.03; IborIndex indexSixMonths = new Euribor6M(rhTermStructure); Date startDate = calendar.advance(settlementDate, 1, TimeUnit.Years, floatingLegConvention); Date maturity = calendar.advance(startDate, 5, TimeUnit.Years, floatingLegConvention); Schedule fixedSchedule = new Schedule(startDate, maturity, new Period(fixedLegFrequency), calendar, fixedLegConvention, fixedLegConvention, DateGeneration.Rule.Forward, false); Schedule floatSchedule = new Schedule(startDate, maturity, new Period(floatingLegFrequency), calendar, floatingLegConvention, floatingLegConvention, DateGeneration.Rule.Forward, false); VanillaSwap swap = new VanillaSwap( type, 1000.0, fixedSchedule, dummyFixedRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); swap.setPricingEngine(new DiscountingSwapEngine(rhTermStructure)); double fixedAtmRate = swap.fairRate(); double fixedOtmRate = fixedAtmRate * 1.2; double fixedItmRate = fixedAtmRate * 0.8; VanillaSwap atmSwap = new VanillaSwap( type, 1000.0, fixedSchedule, fixedAtmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); VanillaSwap otmSwap = new VanillaSwap( type, 1000.0, fixedSchedule, fixedOtmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); VanillaSwap itmSwap = new VanillaSwap( type, 1000.0, fixedSchedule, fixedItmRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); // defining the swaptions to be used in model calibration List <Period> swaptionMaturities = new List <Period>(5); swaptionMaturities.Add(new Period(1, TimeUnit.Years)); swaptionMaturities.Add(new Period(2, TimeUnit.Years)); swaptionMaturities.Add(new Period(3, TimeUnit.Years)); swaptionMaturities.Add(new Period(4, TimeUnit.Years)); swaptionMaturities.Add(new Period(5, TimeUnit.Years)); List <CalibrationHelper> swaptions = new List <CalibrationHelper>(); // List of times that have to be included in the timegrid List <double> times = new List <double>(); for (int i = 0; i < NumRows; i++) { int j = NumCols - i - 1; // 1x5, 2x4, 3x3, 4x2, 5x1 int k = i * NumCols + j; Quote vol = new SimpleQuote(SwaptionVols[k]); swaptions.Add(new SwaptionHelper(swaptionMaturities[i], new Period(SwapLenghts[j], TimeUnit.Years), new Handle <Quote>(vol), indexSixMonths, indexSixMonths.tenor(), indexSixMonths.dayCounter(), indexSixMonths.dayCounter(), rhTermStructure, false)); swaptions.Last().addTimesTo(times); } // Building time-grid TimeGrid grid = new TimeGrid(times, 30); // defining the models G2 modelG2 = new G2(rhTermStructure); HullWhite modelHw = new HullWhite(rhTermStructure); HullWhite modelHw2 = new HullWhite(rhTermStructure); BlackKarasinski modelBk = new BlackKarasinski(rhTermStructure); // model calibrations Console.WriteLine("G2 (analytic formulae) calibration"); for (int i = 0; i < swaptions.Count; i++) { swaptions[i].setPricingEngine(new G2SwaptionEngine(modelG2, 6.0, 16)); } CalibrateModel(modelG2, swaptions); Console.WriteLine("calibrated to:\n" + "a = {0:0.000000}, " + "sigma = {1:0.0000000}\n" + "b = {2:0.000000}, " + "eta = {3:0.0000000}\n" + "rho = {4:0.00000}\n", modelG2.parameters()[0], modelG2.parameters()[1], modelG2.parameters()[2], modelG2.parameters()[3], modelG2.parameters()[4]); Console.WriteLine("Hull-White (analytic formulae) calibration"); for (int i = 0; i < swaptions.Count; i++) { swaptions[i].setPricingEngine(new JamshidianSwaptionEngine(modelHw)); } CalibrateModel(modelHw, swaptions); Console.WriteLine("calibrated to:\n" + "a = {0:0.000000}, " + "sigma = {1:0.0000000}\n", modelHw.parameters()[0], modelHw.parameters()[1]); Console.WriteLine("Hull-White (numerical) calibration"); for (int i = 0; i < swaptions.Count(); i++) { swaptions[i].setPricingEngine(new TreeSwaptionEngine(modelHw2, grid)); } CalibrateModel(modelHw2, swaptions); Console.WriteLine("calibrated to:\n" + "a = {0:0.000000}, " + "sigma = {1:0.0000000}\n", modelHw2.parameters()[0], modelHw2.parameters()[1]); Console.WriteLine("Black-Karasinski (numerical) calibration"); for (int i = 0; i < swaptions.Count; i++) { swaptions[i].setPricingEngine(new TreeSwaptionEngine(modelBk, grid)); } CalibrateModel(modelBk, swaptions); Console.WriteLine("calibrated to:\n" + "a = {0:0.000000}, " + "sigma = {1:0.00000}\n", modelBk.parameters()[0], modelBk.parameters()[1]); // ATM Bermudan swaption pricing Console.WriteLine("Payer bermudan swaption " + "struck at {0:0.00000 %} (ATM)", fixedAtmRate); List <Date> bermudanDates = new List <Date>(); List <CashFlow> leg = swap.fixedLeg(); for (int i = 0; i < leg.Count; i++) { Coupon coupon = (Coupon)leg[i]; bermudanDates.Add(coupon.accrualStartDate()); } Exercise bermudanExercise = new BermudanExercise(bermudanDates); Swaption bermudanSwaption = new Swaption(atmSwap, bermudanExercise); // Do the pricing for each model // G2 price the European swaption here, it should switch to bermudan bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelG2, 50)); Console.WriteLine("G2: {0:0.00}", bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw, 50)); Console.WriteLine("HW: {0:0.000}", bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw2, 50)); Console.WriteLine("HW (num): {0:0.000}", bermudanSwaption.NPV()); bermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelBk, 50)); Console.WriteLine("BK: {0:0.000}", bermudanSwaption.NPV()); // OTM Bermudan swaption pricing Console.WriteLine("Payer bermudan swaption " + "struck at {0:0.00000 %} (OTM)", fixedOtmRate); Swaption otmBermudanSwaption = new Swaption(otmSwap, bermudanExercise); // Do the pricing for each model otmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelG2, 50)); Console.WriteLine("G2: {0:0.0000}", otmBermudanSwaption.NPV()); otmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw, 50)); Console.WriteLine("HW: {0:0.0000}", otmBermudanSwaption.NPV()); otmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw2, 50)); Console.WriteLine("HW (num): {0:0.000}", otmBermudanSwaption.NPV()); otmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelBk, 50)); Console.WriteLine("BK: {0:0.0000}", otmBermudanSwaption.NPV()); // ITM Bermudan swaption pricing Console.WriteLine("Payer bermudan swaption " + "struck at {0:0.00000 %} (ITM)", fixedItmRate); Swaption itmBermudanSwaption = new Swaption(itmSwap, bermudanExercise); // Do the pricing for each model itmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelG2, 50)); Console.WriteLine("G2: {0:0.000}", itmBermudanSwaption.NPV()); itmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw, 50)); Console.WriteLine("HW: {0:0.000}", itmBermudanSwaption.NPV()); itmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelHw2, 50)); Console.WriteLine("HW (num): {0:0.000}", itmBermudanSwaption.NPV()); itmBermudanSwaption.setPricingEngine(new TreeSwaptionEngine(modelBk, 50)); Console.WriteLine("BK: {0:0.000}", itmBermudanSwaption.NPV()); Console.WriteLine(" \nRun completed in {0}", DateTime.Now - timer); Console.WriteLine(); Console.Write("Press any key to continue ..."); Console.ReadKey(); }
static void Main(string[] args) { DateTime timer = DateTime.Now; /********************* *** MARKET DATA *** *********************/ Calendar calendar = new TARGET(); Date settlementDate = new Date(22, Month.September, 2004); // must be a business day settlementDate = calendar.adjust(settlementDate); int fixingDays = 2; Date todaysDate = calendar.advance(settlementDate, -fixingDays, TimeUnit.Days); // nothing to do with Date::todaysDate Settings.setEvaluationDate(todaysDate); todaysDate = Settings.evaluationDate(); Console.WriteLine("Today: {0}, {1}", todaysDate.DayOfWeek, todaysDate); Console.WriteLine("Settlement date: {0}, {1}", settlementDate.DayOfWeek, settlementDate); // deposits double d1wQuote = 0.0382; double d1mQuote = 0.0372; double d3mQuote = 0.0363; double d6mQuote = 0.0353; double d9mQuote = 0.0348; double d1yQuote = 0.0345; // FRAs double fra3x6Quote = 0.037125; double fra6x9Quote = 0.037125; double fra6x12Quote = 0.037125; // futures double fut1Quote = 96.2875; double fut2Quote = 96.7875; double fut3Quote = 96.9875; double fut4Quote = 96.6875; double fut5Quote = 96.4875; double fut6Quote = 96.3875; double fut7Quote = 96.2875; double fut8Quote = 96.0875; // swaps double s2yQuote = 0.037125; double s3yQuote = 0.0398; double s5yQuote = 0.0443; double s10yQuote = 0.05165; double s15yQuote = 0.055175; /******************** *** QUOTES *** ********************/ // SimpleQuote stores a value which can be manually changed; // other Quote subclasses could read the value from a database // or some kind of data feed. // deposits Quote d1wRate = new SimpleQuote(d1wQuote); Quote d1mRate = new SimpleQuote(d1mQuote); Quote d3mRate = new SimpleQuote(d3mQuote); Quote d6mRate = new SimpleQuote(d6mQuote); Quote d9mRate = new SimpleQuote(d9mQuote); Quote d1yRate = new SimpleQuote(d1yQuote); // FRAs Quote fra3x6Rate = new SimpleQuote(fra3x6Quote); Quote fra6x9Rate = new SimpleQuote(fra6x9Quote); Quote fra6x12Rate = new SimpleQuote(fra6x12Quote); // futures Quote fut1Price = new SimpleQuote(fut1Quote); Quote fut2Price = new SimpleQuote(fut2Quote); Quote fut3Price = new SimpleQuote(fut3Quote); Quote fut4Price = new SimpleQuote(fut4Quote); Quote fut5Price = new SimpleQuote(fut5Quote); Quote fut6Price = new SimpleQuote(fut6Quote); Quote fut7Price = new SimpleQuote(fut7Quote); Quote fut8Price = new SimpleQuote(fut8Quote); // swaps Quote s2yRate = new SimpleQuote(s2yQuote); Quote s3yRate = new SimpleQuote(s3yQuote); Quote s5yRate = new SimpleQuote(s5yQuote); Quote s10yRate = new SimpleQuote(s10yQuote); Quote s15yRate = new SimpleQuote(s15yQuote); /********************* *** RATE HELPERS *** *********************/ // RateHelpers are built from the above quotes together with // other instrument dependant infos. Quotes are passed in // relinkable handles which could be relinked to some other // data source later. // deposits DayCounter depositDayCounter = new Actual360(); RateHelper d1w = new DepositRateHelper(new Handle <Quote>(d1wRate), new Period(1, TimeUnit.Weeks), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper d1m = new DepositRateHelper(new Handle <Quote>(d1mRate), new Period(1, TimeUnit.Months), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper d3m = new DepositRateHelper(new Handle <Quote>(d3mRate), new Period(3, TimeUnit.Months), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper d6m = new DepositRateHelper(new Handle <Quote>(d6mRate), new Period(6, TimeUnit.Months), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper d9m = new DepositRateHelper(new Handle <Quote>(d9mRate), new Period(9, TimeUnit.Months), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper d1y = new DepositRateHelper(new Handle <Quote>(d1yRate), new Period(1, TimeUnit.Years), fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); // setup FRAs RateHelper fra3x6 = new FraRateHelper(new Handle <Quote>(fra3x6Rate), 3, 6, fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper fra6x9 = new FraRateHelper(new Handle <Quote>(fra6x9Rate), 6, 9, fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); RateHelper fra6x12 = new FraRateHelper(new Handle <Quote>(fra6x12Rate), 6, 12, fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); // setup futures // Handle<Quote> convexityAdjustment = new Handle<Quote>(new SimpleQuote(0.0)); int futMonths = 3; Date imm = IMM.nextDate(settlementDate); RateHelper fut1 = new FuturesRateHelper(new Handle <Quote>(fut1Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut2 = new FuturesRateHelper(new Handle <Quote>(fut2Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut3 = new FuturesRateHelper(new Handle <Quote>(fut3Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut4 = new FuturesRateHelper(new Handle <Quote>(fut4Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut5 = new FuturesRateHelper(new Handle <Quote>(fut5Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut6 = new FuturesRateHelper(new Handle <Quote>(fut6Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut7 = new FuturesRateHelper(new Handle <Quote>(fut7Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); imm = IMM.nextDate(imm + 1); RateHelper fut8 = new FuturesRateHelper(new Handle <Quote>(fut8Price), imm, futMonths, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); // setup swaps Frequency swFixedLegFrequency = Frequency.Annual; BusinessDayConvention swFixedLegConvention = BusinessDayConvention.Unadjusted; DayCounter swFixedLegDayCounter = new Thirty360(Thirty360.Thirty360Convention.European); IborIndex swFloatingLegIndex = new Euribor6M(); RateHelper s2y = new SwapRateHelper(new Handle <Quote>(s2yRate), new Period(2, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex); RateHelper s3y = new SwapRateHelper(new Handle <Quote>(s3yRate), new Period(3, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex); RateHelper s5y = new SwapRateHelper(new Handle <Quote>(s5yRate), new Period(5, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex); RateHelper s10y = new SwapRateHelper(new Handle <Quote>(s10yRate), new Period(10, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex); RateHelper s15y = new SwapRateHelper(new Handle <Quote>(s15yRate), new Period(15, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex); /********************* ** CURVE BUILDING ** *********************/ // Any DayCounter would be fine. // ActualActual::ISDA ensures that 30 years is 30.0 DayCounter termStructureDayCounter = new ActualActual(ActualActual.Convention.ISDA); double tolerance = 1.0e-15; // A depo-swap curve List <RateHelper> depoSwapInstruments = new List <RateHelper>(); depoSwapInstruments.Add(d1w); depoSwapInstruments.Add(d1m); depoSwapInstruments.Add(d3m); depoSwapInstruments.Add(d6m); depoSwapInstruments.Add(d9m); depoSwapInstruments.Add(d1y); depoSwapInstruments.Add(s2y); depoSwapInstruments.Add(s3y); depoSwapInstruments.Add(s5y); depoSwapInstruments.Add(s10y); depoSwapInstruments.Add(s15y); YieldTermStructure depoSwapTermStructure = new PiecewiseYieldCurve <Discount, LogLinear>( settlementDate, depoSwapInstruments, termStructureDayCounter, new List <Handle <Quote> >(), new List <Date>(), tolerance); // A depo-futures-swap curve List <RateHelper> depoFutSwapInstruments = new List <RateHelper>(); depoFutSwapInstruments.Add(d1w); depoFutSwapInstruments.Add(d1m); depoFutSwapInstruments.Add(fut1); depoFutSwapInstruments.Add(fut2); depoFutSwapInstruments.Add(fut3); depoFutSwapInstruments.Add(fut4); depoFutSwapInstruments.Add(fut5); depoFutSwapInstruments.Add(fut6); depoFutSwapInstruments.Add(fut7); depoFutSwapInstruments.Add(fut8); depoFutSwapInstruments.Add(s3y); depoFutSwapInstruments.Add(s5y); depoFutSwapInstruments.Add(s10y); depoFutSwapInstruments.Add(s15y); YieldTermStructure depoFutSwapTermStructure = new PiecewiseYieldCurve <Discount, LogLinear>( settlementDate, depoFutSwapInstruments, termStructureDayCounter, new List <Handle <Quote> >(), new List <Date>(), tolerance); // A depo-FRA-swap curve List <RateHelper> depoFRASwapInstruments = new List <RateHelper>(); depoFRASwapInstruments.Add(d1w); depoFRASwapInstruments.Add(d1m); depoFRASwapInstruments.Add(d3m); depoFRASwapInstruments.Add(fra3x6); depoFRASwapInstruments.Add(fra6x9); depoFRASwapInstruments.Add(fra6x12); depoFRASwapInstruments.Add(s2y); depoFRASwapInstruments.Add(s3y); depoFRASwapInstruments.Add(s5y); depoFRASwapInstruments.Add(s10y); depoFRASwapInstruments.Add(s15y); YieldTermStructure depoFRASwapTermStructure = new PiecewiseYieldCurve <Discount, LogLinear>( settlementDate, depoFRASwapInstruments, termStructureDayCounter, new List <Handle <Quote> >(), new List <Date>(), tolerance); // Term structures that will be used for pricing: // the one used for discounting cash flows RelinkableHandle <YieldTermStructure> discountingTermStructure = new RelinkableHandle <YieldTermStructure>(); // the one used for forward rate forecasting RelinkableHandle <YieldTermStructure> forecastingTermStructure = new RelinkableHandle <YieldTermStructure>(); /********************* * SWAPS TO BE PRICED * **********************/ // constant nominal 1,000,000 Euro double nominal = 1000000.0; // fixed leg Frequency fixedLegFrequency = Frequency.Annual; BusinessDayConvention fixedLegConvention = BusinessDayConvention.Unadjusted; BusinessDayConvention floatingLegConvention = BusinessDayConvention.ModifiedFollowing; DayCounter fixedLegDayCounter = new Thirty360(Thirty360.Thirty360Convention.European); double fixedRate = 0.04; DayCounter floatingLegDayCounter = new Actual360(); // floating leg Frequency floatingLegFrequency = Frequency.Semiannual; IborIndex euriborIndex = new Euribor6M(forecastingTermStructure); double spread = 0.0; int lenghtInYears = 5; VanillaSwap.Type swapType = VanillaSwap.Type.Payer; Date maturity = settlementDate + new Period(lenghtInYears, TimeUnit.Years); Schedule fixedSchedule = new Schedule(settlementDate, maturity, new Period(fixedLegFrequency), calendar, fixedLegConvention, fixedLegConvention, DateGeneration.Rule.Forward, false); Schedule floatSchedule = new Schedule(settlementDate, maturity, new Period(floatingLegFrequency), calendar, floatingLegConvention, floatingLegConvention, DateGeneration.Rule.Forward, false); VanillaSwap spot5YearSwap = new VanillaSwap(swapType, nominal, fixedSchedule, fixedRate, fixedLegDayCounter, floatSchedule, euriborIndex, spread, floatingLegDayCounter); Date fwdStart = calendar.advance(settlementDate, 1, TimeUnit.Years); Date fwdMaturity = fwdStart + new Period(lenghtInYears, TimeUnit.Years); Schedule fwdFixedSchedule = new Schedule(fwdStart, fwdMaturity, new Period(fixedLegFrequency), calendar, fixedLegConvention, fixedLegConvention, DateGeneration.Rule.Forward, false); Schedule fwdFloatSchedule = new Schedule(fwdStart, fwdMaturity, new Period(floatingLegFrequency), calendar, floatingLegConvention, floatingLegConvention, DateGeneration.Rule.Forward, false); VanillaSwap oneYearForward5YearSwap = new VanillaSwap(swapType, nominal, fwdFixedSchedule, fixedRate, fixedLegDayCounter, fwdFloatSchedule, euriborIndex, spread, floatingLegDayCounter); /*************** * SWAP PRICING * ****************/ // utilities for reporting List <string> headers = new List <string>(); headers.Add("term structure"); headers.Add("net present value"); headers.Add("fair spread"); headers.Add("fair fixed rate"); string separator = " | "; int width = headers[0].Length + separator.Length + headers[1].Length + separator.Length + headers[2].Length + separator.Length + headers[3].Length + separator.Length - 1; string rule = string.Format("").PadLeft(width, '-'), dblrule = string.Format("").PadLeft(width, '='); string tab = string.Format("").PadLeft(8, ' '); // calculations Console.WriteLine(dblrule); Console.WriteLine("5-year market swap-rate = {0:0.00%}", s5yRate.value()); Console.WriteLine(dblrule); Console.WriteLine(tab + "5-years swap paying {0:0.00%}", fixedRate); Console.WriteLine(headers[0] + separator + headers[1] + separator + headers[2] + separator + headers[3] + separator); Console.WriteLine(rule); double NPV; double fairRate; double fairSpread; IPricingEngine swapEngine = new DiscountingSwapEngine(discountingTermStructure); spot5YearSwap.setPricingEngine(swapEngine); oneYearForward5YearSwap.setPricingEngine(swapEngine); // Of course, you're not forced to really use different curves forecastingTermStructure.linkTo(depoSwapTermStructure); discountingTermStructure.linkTo(depoSwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); // let's check that the 5 years swap has been correctly re-priced if (!(Math.Abs(fairRate - s5yQuote) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yQuote)); } forecastingTermStructure.linkTo(depoFutSwapTermStructure); discountingTermStructure.linkTo(depoFutSwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-fut-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); if (!(Math.Abs(fairRate - s5yQuote) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yQuote)); } forecastingTermStructure.linkTo(depoFRASwapTermStructure); discountingTermStructure.linkTo(depoFRASwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-FRA-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); if (!(Math.Abs(fairRate - s5yQuote) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yQuote)); } Console.WriteLine(rule); // now let's price the 1Y forward 5Y swap Console.WriteLine(tab + "5-years, 1-year forward swap paying {0:0.00%}", fixedRate); Console.WriteLine(headers[0] + separator + headers[1] + separator + headers[2] + separator + headers[3] + separator); Console.WriteLine(rule); forecastingTermStructure.linkTo(depoSwapTermStructure); discountingTermStructure.linkTo(depoSwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); forecastingTermStructure.linkTo(depoFutSwapTermStructure); discountingTermStructure.linkTo(depoFutSwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-fut-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); forecastingTermStructure.linkTo(depoFRASwapTermStructure); discountingTermStructure.linkTo(depoFRASwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-FRA-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); // now let's say that the 5-years swap rate goes up to 4.60%. // A smarter market element--say, connected to a data source-- would // notice the change itself. Since we're using SimpleQuotes, // we'll have to change the value manually--which forces us to // downcast the handle and use the SimpleQuote // interface. In any case, the point here is that a change in the // value contained in the Quote triggers a new bootstrapping // of the curve and a repricing of the swap. SimpleQuote fiveYearsRate = s5yRate as SimpleQuote; fiveYearsRate.setValue(0.0460); Console.WriteLine(dblrule); Console.WriteLine("5-year market swap-rate = {0:0.00%}", s5yRate.value()); Console.WriteLine(dblrule); Console.WriteLine(tab + "5-years swap paying {0:0.00%}", fixedRate); Console.WriteLine(headers[0] + separator + headers[1] + separator + headers[2] + separator + headers[3] + separator); Console.WriteLine(rule); // now get the updated results forecastingTermStructure.linkTo(depoSwapTermStructure); discountingTermStructure.linkTo(depoSwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); if (!(Math.Abs(fairRate - s5yRate.value()) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yRate.value())); } forecastingTermStructure.linkTo(depoFutSwapTermStructure); discountingTermStructure.linkTo(depoFutSwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-fut-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); if (!(Math.Abs(fairRate - s5yRate.value()) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yRate.value())); } forecastingTermStructure.linkTo(depoFRASwapTermStructure); discountingTermStructure.linkTo(depoFRASwapTermStructure); NPV = spot5YearSwap.NPV(); fairSpread = spot5YearSwap.fairSpread(); fairRate = spot5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-FRA-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); if (!(Math.Abs(fairRate - s5yRate.value()) < 1e-8)) { throw new ApplicationException("5-years swap mispriced by " + Math.Abs(fairRate - s5yRate.value())); } Console.WriteLine(rule); // the 1Y forward 5Y swap changes as well Console.WriteLine(tab + "5-years, 1-year forward swap paying {0:0.00%}", fixedRate); Console.WriteLine(headers[0] + separator + headers[1] + separator + headers[2] + separator + headers[3] + separator); Console.WriteLine(rule); forecastingTermStructure.linkTo(depoSwapTermStructure); discountingTermStructure.linkTo(depoSwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); forecastingTermStructure.linkTo(depoFutSwapTermStructure); discountingTermStructure.linkTo(depoFutSwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-fut-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); forecastingTermStructure.linkTo(depoFRASwapTermStructure); discountingTermStructure.linkTo(depoFRASwapTermStructure); NPV = oneYearForward5YearSwap.NPV(); fairSpread = oneYearForward5YearSwap.fairSpread(); fairRate = oneYearForward5YearSwap.fairRate(); Console.Write("{0," + headers[0].Length + ":0.00}" + separator, "depo-FRA-swap"); Console.Write("{0," + headers[1].Length + ":0.00}" + separator, NPV); Console.Write("{0," + headers[2].Length + ":0.00%}" + separator, fairSpread); Console.WriteLine("{0," + headers[3].Length + ":0.00%}" + separator, fairRate); Console.WriteLine(" \nRun completed in {0}", DateTime.Now - timer); Console.Write("Press any key to continue ..."); Console.ReadKey(); }