public void testSwaptionVolMatrixObservability() { //"Testing swaption volatility matrix observability..."); CommonVars vars = new CommonVars(); SwaptionVolatilityMatrix vol; string description; //floating reference date, floating market data description = "floating reference date, floating market data"; vol = new SwaptionVolatilityMatrix(vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeObservabilityTest(description, vol, true, true); //fixed reference date, floating market data description = "fixed reference date, floating market data"; vol = new SwaptionVolatilityMatrix(Settings.evaluationDate(), vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeObservabilityTest(description, vol, true, false); // floating reference date, fixed market data description = "floating reference date, fixed market data"; vol = new SwaptionVolatilityMatrix(vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeObservabilityTest(description, vol, false, true); // fixed reference date, fixed market data description = "fixed reference date, fixed market data"; vol = new SwaptionVolatilityMatrix(Settings.evaluationDate(), vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeObservabilityTest(description, vol, false, false); // fixed reference date and fixed market data, option dates //SwaptionVolatilityMatrix(const Date& referenceDate, // const std::vector<Date>& exerciseDates, // const std::vector<Period>& swapTenors, // const Matrix& volatilities, // const DayCounter& dayCounter); }
public void testSwaptionVolMatrixCoherence() { // Set evaluation date Settings.Instance.setEvaluationDate(Date.Today); // Testing swaption volatility matrix CommonVars vars = new CommonVars(); SwaptionVolatilityMatrix vol; string description; //floating reference date, floating market data description = "floating reference date, floating market data"; vol = new SwaptionVolatilityMatrix(vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeCoherenceTest(description, vol); //fixed reference date, floating market data description = "fixed reference date, floating market data"; vol = new SwaptionVolatilityMatrix(Settings.Instance.evaluationDate(), vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeCoherenceTest(description, vol); // floating reference date, fixed market data description = "floating reference date, fixed market data"; vol = new SwaptionVolatilityMatrix(vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeCoherenceTest(description, vol); // fixed reference date, fixed market data description = "fixed reference date, fixed market data"; vol = new SwaptionVolatilityMatrix(Settings.Instance.evaluationDate(), vars.conventions.calendar, vars.conventions.optionBdc, vars.atm.tenors.options, vars.atm.tenors.swaps, vars.atm.volsHandle, vars.conventions.dayCounter); vars.makeCoherenceTest(description, vol); }
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()); } } } } }
internal static global::System.Runtime.InteropServices.HandleRef getCPtr(SwaptionVolatilityMatrix obj) { return((obj == null) ? new global::System.Runtime.InteropServices.HandleRef(null, global::System.IntPtr.Zero) : obj.swigCPtr); }
internal static global::System.Runtime.InteropServices.HandleRef getCPtr(SwaptionVolatilityMatrix obj) { return (obj == null) ? new global::System.Runtime.InteropServices.HandleRef(null, global::System.IntPtr.Zero) : obj.swigCPtr; }