static void Main(string[] args) { try { var timer = new System.Diagnostics.Stopwatch(); timer.Start(); #region MARKET DATA var calendar = new TARGET(); var settlementDate = new Date(18, Month.September, 2008); // must be a business day settlementDate = calendar.adjust(settlementDate); int fixingDays = 3; uint settlementDays = 3; var todaysDate = calendar.advance(settlementDate, -fixingDays, TimeUnit.Days); // nothing to do with Date::todaysDate Settings.instance().setEvaluationDate(todaysDate); Console.WriteLine("Today: {0} {1} {2} {3}", todaysDate.weekday(), todaysDate.dayOfMonth(), todaysDate.month(), todaysDate.year()); Console.WriteLine("Settlement date: {0} {1} {2} {3}", settlementDate.weekday(), settlementDate.dayOfMonth(), settlementDate.month(), settlementDate.year()); // Building of the bonds discounting yield curve #endregion #region 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. // Common data // ZC rates for the short end double zc3mQuote = 0.0096; double zc6mQuote = 0.0145; double zc1yQuote = 0.0194; var zc3mRate = new SimpleQuote(zc3mQuote); var zc6mRate = new SimpleQuote(zc6mQuote); var zc1yRate = new SimpleQuote(zc1yQuote); var zcBondsDayCounter = new Actual365Fixed(); var zc3m = new DepositRateHelper(new QuoteHandle(zc3mRate), new Period(3, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter); var zc6m = new DepositRateHelper(new QuoteHandle(zc6mRate), new Period(6, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter); var zc1y = new DepositRateHelper(new QuoteHandle(zc1yRate), new Period(1, TimeUnit.Years), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, zcBondsDayCounter); // setup bonds double redemption = 100.0; const uint numberOfBonds = 5; var issueDates = new Date[] { new Date(15, Month.March, 2005), new Date(15, Month.June, 2005), new Date(30, Month.June, 2006), new Date(15, Month.November, 2002), new Date(15, Month.May, 1987) }; var maturities = new Date[] { new Date(31, Month.August, 2010), new Date(31, Month.August, 2011), new Date(31, Month.August, 2013), new Date(15, Month.August, 2018), new Date(15, Month.May, 2038) }; var couponRates = new double[] { 0.02375, 0.04625, 0.03125, 0.04000, 0.04500 }; var marketQuotes = new double[] { 100.390625, 106.21875, 100.59375, 101.6875, 102.140625 }; var quote = new QuoteVector((int)numberOfBonds); for (uint i = 0; i < numberOfBonds; i++) { var cp = new SimpleQuote(marketQuotes[i]); quote.Add(cp); } var quoteHandle = new RelinkableQuoteHandleVector((int)numberOfBonds); for (int i = 0; i < (int)numberOfBonds; i++) { quoteHandle.Add(new RelinkableQuoteHandle()); quoteHandle[i].linkTo(quote[i]); } // Definition of the rate helpers var bondsHelpers = new RateHelperVector((int)numberOfBonds); for (int i = 0; i < (int)numberOfBonds; i++) { var schedule = new Schedule(issueDates[i], maturities[i], new Period(Frequency.Semiannual), new UnitedStates(UnitedStates.Market.GovernmentBond), BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false); var bondHelper = new FixedRateBondHelper(quoteHandle[i], settlementDays, 100.0, schedule, new DoubleVector(1) { couponRates[i] }, new ActualActual(ActualActual.Convention.Bond), BusinessDayConvention.Unadjusted, redemption, issueDates[i]); bondsHelpers.Add(bondHelper); } #endregion #region CURVE BUILDING // Any DayCounter would be fine. // ActualActual::ISDA ensures that 30 years is 30.0 var termStructureDayCounter = new ActualActual(ActualActual.Convention.ISDA); //double tolerance = 1.0e-15; // A depo-bond curve var bondInstruments = new RateHelperVector(); // Adding the ZC bonds to the curve for the short end bondInstruments.Add(zc3m); bondInstruments.Add(zc6m); bondInstruments.Add(zc1y); // Adding the Fixed rate bonds to the curve for the long end for (int i = 0; i < numberOfBonds; i++) bondInstruments.Add(bondsHelpers[3]); var bondDiscountingTermStructure = new PiecewiseFlatForward(settlementDate, bondInstruments, termStructureDayCounter); // Building of the Libor forecasting curve // deposits double d1wQuote = 0.043375; double d1mQuote = 0.031875; double d3mQuote = 0.0320375; double d6mQuote = 0.03385; double d9mQuote = 0.0338125; double d1yQuote = 0.0335125; // swaps double s2yQuote = 0.0295; double s3yQuote = 0.0323; double s5yQuote = 0.0359; double s10yQuote = 0.0412; double s15yQuote = 0.0433; #endregion #region 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 var d1wRate = new SimpleQuote(d1wQuote); var d1mRate = new SimpleQuote(d1mQuote); var d3mRate = new SimpleQuote(d3mQuote); var d6mRate = new SimpleQuote(d6mQuote); var d9mRate = new SimpleQuote(d9mQuote); var d1yRate = new SimpleQuote(d1yQuote); // swaps var s2yRate = new SimpleQuote(s2yQuote); var s3yRate = new SimpleQuote(s3yQuote); var s5yRate = new SimpleQuote(s5yQuote); var s10yRate = new SimpleQuote(s10yQuote); var s15yRate = new SimpleQuote(s15yQuote); #endregion #region 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 var depositDayCounter = new Actual360(); var d1w = new DepositRateHelper(new QuoteHandle(d1wRate), new Period(1, TimeUnit.Weeks), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); var d1m = new DepositRateHelper(new QuoteHandle(d1mRate), new Period(1, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); var d3m = new DepositRateHelper(new QuoteHandle(d3mRate), new Period(3, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); var d6m = new DepositRateHelper(new QuoteHandle(d6mRate), new Period(6, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); var d9m = new DepositRateHelper(new QuoteHandle(d9mRate), new Period(9, TimeUnit.Months), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); var d1y = new DepositRateHelper(new QuoteHandle(d1yRate), new Period(1, TimeUnit.Years), (uint)fixingDays, calendar, BusinessDayConvention.ModifiedFollowing, true, depositDayCounter); // setup swaps var swFixedLegFrequency = Frequency.Annual; var swFixedLegConvention = BusinessDayConvention.Unadjusted; var swFixedLegDayCounter = new Thirty360(Thirty360.Convention.European); var swFloatingLegIndex = new Euribor6M(); var forwardStart = new Period(1, TimeUnit.Days); var s2y = new SwapRateHelper(new QuoteHandle(s2yRate), new Period(2, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex, new QuoteHandle(), forwardStart); var s3y = new SwapRateHelper(new QuoteHandle(s3yRate), new Period(3, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex, new QuoteHandle(), forwardStart); var s5y = new SwapRateHelper(new QuoteHandle(s5yRate), new Period(5, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex, new QuoteHandle(), forwardStart); var s10y = new SwapRateHelper(new QuoteHandle(s10yRate), new Period(10, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex, new QuoteHandle(), forwardStart); var s15y = new SwapRateHelper(new QuoteHandle(s15yRate), new Period(15, TimeUnit.Years), calendar, swFixedLegFrequency, swFixedLegConvention, swFixedLegDayCounter, swFloatingLegIndex, new QuoteHandle(), forwardStart); #endregion #region CURVE BUILDING // Any DayCounter would be fine. // ActualActual::ISDA ensures that 30 years is 30.0 // A depo-swap curve var depoSwapInstruments = new RateHelperVector(); 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); var depoSwapTermStructure = new PiecewiseFlatForward(settlementDate, depoSwapInstruments, termStructureDayCounter); // Term structures that will be used for pricing: // the one used for discounting cash flows var discountingTermStructure = new RelinkableYieldTermStructureHandle(); // the one used for forward rate forecasting //var forecastingTermStructure = new RelinkableYieldTermStructureHandle(); #endregion #region BONDS TO BE PRICED // Common data double faceAmount = 100; // Pricing engine var bondEngine = new DiscountingBondEngine(new YieldTermStructureHandle(bondDiscountingTermStructure)); // Zero coupon bond var zeroCouponBond = new ZeroCouponBond(settlementDays, new UnitedStates(UnitedStates.Market.GovernmentBond), faceAmount, new Date(15, Month.August, 2013), BusinessDayConvention.Following, 116.92, new Date(15, Month.August, 2003)); zeroCouponBond.setPricingEngine(bondEngine); // Fixed 4.5% US Treasury Note var fixedBondSchedule = new Schedule(new Date(15, Month.May, 2007), new Date(15, Month.May, 2017), new Period(Frequency.Semiannual), new UnitedStates(UnitedStates.Market.GovernmentBond), BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false); var fixedRateBond = new FixedRateBond((int)settlementDays, faceAmount, fixedBondSchedule, new DoubleVector(1) { 0.045 }, new ActualActual(ActualActual.Convention.Bond), BusinessDayConvention.ModifiedFollowing, 100.0, new Date(15, Month.May, 2007)); fixedRateBond.setPricingEngine(bondEngine); // Floating rate bond (3M USD Libor + 0.1%) // Should and will be priced on another curve later... var liborTermStructure = new RelinkableYieldTermStructureHandle(); var libor3m = new USDLibor(new Period(3, TimeUnit.Months), liborTermStructure); libor3m.addFixing(new Date(17, Month.July, 2008), 0.0278625); var floatingBondSchedule = new Schedule(new Date(21, Month.October, 2005), new Date(21, Month.October, 2010), new Period(Frequency.Quarterly), new UnitedStates(UnitedStates.Market.NYSE), BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, true); var floatingRateBond = new FloatingRateBond(settlementDays, faceAmount, floatingBondSchedule, libor3m, new Actual360(), BusinessDayConvention.ModifiedFollowing, 2, // Gearings new DoubleVector(1) { 1.0 }, // Spreads new DoubleVector(1) { 0.001 }, // Caps new DoubleVector(), // Floors new DoubleVector(), // Fixing in arrears true, 100.0, new Date(21, Month.October, 2005)); floatingRateBond.setPricingEngine(bondEngine); // Coupon pricers var pricer = new BlackIborCouponPricer(); // optionLet volatilities double volatility = 0.0; var vol = new OptionletVolatilityStructureHandle(new ConstantOptionletVolatility(settlementDays, calendar, BusinessDayConvention.ModifiedFollowing, volatility, new Actual365Fixed())); pricer.setCapletVolatility(vol); NQuantLibc.setCouponPricer(floatingRateBond.cashflows(), pricer); // Yield curve bootstrapping //forecastingTermStructure.linkTo(depoSwapTermStructure); discountingTermStructure.linkTo(bondDiscountingTermStructure); // We are using the depo & swap curve to estimate the future Libor rates liborTermStructure.linkTo(depoSwapTermStructure); #endregion #region BOND PRICING Console.WriteLine(); // write column headings int[] widths = new int[] { 0, 28, 38, 48 }; Console.CursorLeft = widths[0]; Console.Write(" "); Console.CursorLeft = widths[1]; Console.Write("ZC"); Console.CursorLeft = widths[2]; Console.Write("Fixed"); Console.CursorLeft = widths[3]; Console.WriteLine("Floating"); //string separator = " | "; int width = widths[3]; string rule = new string('-', width); string dblrule = new string('=', width); string tab = new string(' ', 8); Console.WriteLine(rule); Console.CursorLeft = widths[0]; Console.Write("Net present value"); Console.CursorLeft = widths[1]; Console.Write(zeroCouponBond.NPV().ToString("000.00")); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.NPV().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.NPV().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Clean price"); Console.CursorLeft = widths[1]; Console.Write(zeroCouponBond.cleanPrice().ToString("000.00")); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.cleanPrice().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.cleanPrice().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Dirty price"); Console.CursorLeft = widths[1]; Console.Write(zeroCouponBond.dirtyPrice().ToString("000.00")); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.dirtyPrice().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.dirtyPrice().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Accrued coupon"); Console.CursorLeft = widths[1]; Console.Write(zeroCouponBond.accruedAmount().ToString("000.00")); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.accruedAmount().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.accruedAmount().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Previous coupon"); Console.CursorLeft = widths[1]; Console.Write("N/A"); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.previousCouponRate().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.previousCouponRate().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Next coupon"); Console.CursorLeft = widths[1]; Console.Write("N/A"); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.nextCouponRate().ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.nextCouponRate().ToString("000.00")); Console.CursorLeft = widths[0]; Console.Write("Yield"); Console.CursorLeft = widths[1]; Console.Write(zeroCouponBond.yield(new Actual360(), Compounding.Compounded, Frequency.Annual).ToString("000.00")); Console.CursorLeft = widths[2]; Console.Write(fixedRateBond.yield(new Actual360(), Compounding.Compounded, Frequency.Annual).ToString("000.00")); Console.CursorLeft = widths[3]; Console.WriteLine(floatingRateBond.yield(new Actual360(), Compounding.Compounded, Frequency.Annual).ToString("000.00")); double yield = fixedRateBond.yield(new Actual360(), Compounding.Compounded, Frequency.Annual); Console.CursorLeft = widths[2]; Console.Write(BondFunctions.duration(fixedRateBond, new InterestRate(yield, fixedRateBond.dayCounter(), Compounding.Compounded, Frequency.Annual), Duration.Type.Modified)); Console.WriteLine(); // Other computations Console.WriteLine("Sample indirect computations (for the floating rate bond): "); Console.WriteLine(rule); Console.WriteLine("Yield to Clean Price: {0}", floatingRateBond.cleanPrice(floatingRateBond.yield(new Actual360(), Compounding.Compounded, Frequency.Annual), new Actual360(), Compounding.Compounded, Frequency.Annual, settlementDate).ToString("000.00")); Console.WriteLine("Clean Price to Yield: {0}", floatingRateBond.yield(floatingRateBond.cleanPrice(), new Actual360(), Compounding.Compounded, Frequency.Annual, settlementDate).ToString("000.00")); /* "Yield to Price" "Price to Yield" */ double milliseconds = timer.ElapsedMilliseconds; Console.WriteLine(); Console.WriteLine("Run completed in " + milliseconds + "ms"); #endregion } catch (Exception e) { Console.WriteLine(e.Message); } finally { Console.Read(); } }
public void Add(string isin, string issueDate, string maturityDate, double coupon) { if (bonds.ContainsKey(isin)) return; var schedule = new Schedule(new Date(issueDate, "dd/mm/yyyy"), new Date(maturityDate, "dd/mm/yyyy"), new Period(Frequency.Semiannual), new UnitedKingdom(UnitedKingdom.Market.Settlement), BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false); var bond = new FixedRateBond(1, 100.0, schedule, new DoubleVector(1) { coupon }, new ActualActual(ActualActual.Convention.Bond), BusinessDayConvention.Unadjusted, 100.0, new Date(issueDate, "dd/mm/yyyy")); bond.setPricingEngine(pricingEngine); bonds.Add(isin, bond); }
private void AddBonds(XElement xCurve, RateHelperVector helpers) { var xBonds = from xBond in xCurve.Descendants("Bond") select xBond; foreach (var xBond in xBonds) { var schedule = new Schedule(new Date(xBond.Attribute("IssueDate").Value, "dd/mm/yyyy"), new Date(xBond.Attribute("MaturityDate").Value, "dd/mm/yyyy"), new Period(Frequency.Semiannual), new UnitedKingdom(UnitedKingdom.Market.Settlement), BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false); helpers.Add(new FixedRateBondHelper(new QuoteHandle(new SimpleQuote(double.Parse(xBond.Value))), 1, 100.0, schedule, new DoubleVector(1) { double.Parse(xBond.Attribute("Coupon").Value) }, new ActualActual(ActualActual.Convention.Bond), BusinessDayConvention.Unadjusted, 100.0, new Date(xBond.Attribute("IssueDate").Value, "dd/mm/yyyy"))); } }
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.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.Payer, 1000.0, fixedSchedule, fixedATMRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter() ); VanillaSwap otmSwap = new VanillaSwap( VanillaSwap.Payer, 1000.0, fixedSchedule, fixedOTMRate, fixedLegDayCounter, floatSchedule, indexSixMonths, 0.0, indexSixMonths.dayCounter()); VanillaSwap itmSwap = new VanillaSwap( VanillaSwap.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(swapLenghts[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++) // 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++) 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++) 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++) 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(); }