示例#1
0
 internal static global::System.Runtime.InteropServices.HandleRef getCPtr(AnalyticHestonEngine obj) {
   return (obj == null) ? new global::System.Runtime.InteropServices.HandleRef(null, global::System.IntPtr.Zero) : obj.swigCPtr;
 }
示例#2
0
        static void Main(string[] args)
        {
            DateTime timer = DateTime.Now;

            ////////////////  DATES  //////////////////////////////////////////////

            Calendar calendar       = new TARGET();
            Date     todaysDate     = new Date(15, Month.January, 2017);
            Date     settlementDate = new Date(todaysDate);

            Settings.setEvaluationDate(todaysDate);
            DayCounter dayCounter = new Actual365Fixed();


            ////////////////  MARKET  //////////////////////////////////////////////

            // Spot
            double         underlying  = 4468.17;
            Handle <Quote> underlyingH = new Handle <Quote>(new SimpleQuote(underlying));

            // riskfree
            double riskFreeRate = 0.035;
            Handle <YieldTermStructure> flatTermStructure = new Handle <YieldTermStructure>(new FlatForward(settlementDate, riskFreeRate, dayCounter));

            // dividend
            double dividendYield = 0.0;
            double fixedDiv      = 5.0;

            Handle <YieldTermStructure> flatDividendTS        = new Handle <YieldTermStructure>(new FlatForward(settlementDate, dividendYield, dayCounter));
            Handle <YieldTermStructure> FixedDivTermStructure = new Handle <YieldTermStructure>(new FixedForward(settlementDate, fixedDiv, underlying, dayCounter));

            // vol surface

            Date StartDateVol = settlementDate + new Period(1, TimeUnit.Months);


            List <int> maturityInDays = new InitializedList <int>()
            {
                0, 13, 41, 90, 165, 256, 345, 524, 703
            };
            List <Date> datesVol = new InitializedList <Date>();

            for (int d = 1; d < maturityInDays.Count; d++)
            {
                datesVol.Add(calendar.advance(settlementDate, new Period(maturityInDays[d], TimeUnit.Days)));
            }

            List <double> strikes = new InitializedList <double>()
            {
                3400, 3600, 3800, 4000, 4200, 4400, 4500, 4600, 4800, 5000, 5200, 5400, 5600
            };

            Matrix blackVolMatrix = new Matrix(maturityInDays.Count - 1, strikes.Count, 0.2);
            var    vols           = new InitializedList <double>()
            {
                0.6625, 0.4875, 0.4204, 0.3667, 0.3431, 0.3267, 0.3121, 0.3121,
                0.6007, 0.4543, 0.3967, 0.3511, 0.3279, 0.3154, 0.2984, 0.2921,
                0.5084, 0.4221, 0.3718, 0.3327, 0.3155, 0.3027, 0.2919, 0.2889,
                0.4541, 0.3869, 0.3492, 0.3149, 0.2963, 0.2926, 0.2819, 0.2800,
                0.4060, 0.3607, 0.3330, 0.2999, 0.2887, 0.2811, 0.2751, 0.2775,
                0.3726, 0.3396, 0.3108, 0.2781, 0.2788, 0.2722, 0.2661, 0.2686,
                0.3550, 0.3277, 0.3012, 0.2781, 0.2781, 0.2661, 0.2661, 0.2681,
                0.3428, 0.3209, 0.2958, 0.2740, 0.2688, 0.2627, 0.2580, 0.2620,
                0.3302, 0.3062, 0.2799, 0.2631, 0.2573, 0.2533, 0.2504, 0.2544,
                0.3343, 0.2959, 0.2705, 0.2540, 0.2504, 0.2464, 0.2448, 0.2462,
                0.3460, 0.2845, 0.2624, 0.2463, 0.2425, 0.2385, 0.2373, 0.2422,
                0.3857, 0.2860, 0.2578, 0.2399, 0.2357, 0.2327, 0.2312, 0.2351,
                0.3976, 0.2860, 0.2607, 0.2356, 0.2297, 0.2268, 0.2241, 0.2320
            };


            for (int i = 0; i < vols.Count; i++)
            {
                int testraw = (int)(i % (datesVol.Count));
                int testcol = (int)(i / (datesVol.Count));

                blackVolMatrix[testraw, testcol] = vols[i];
            }



            BlackVarianceSurface mySurface = new BlackVarianceSurface(settlementDate, calendar, datesVol,
                                                                      strikes, Matrix.transpose(blackVolMatrix), dayCounter);

            Handle <BlackVolTermStructure> mySurfaceH = new Handle <BlackVolTermStructure>(mySurface);


            ////////////////  CALIBRATION  //////////////////////////////////////////////

            Period helperPeriod = new Period();

            //helpers
            List <CalibrationHelper> calibrationHelpers = new List <CalibrationHelper>();

            for (int k = 0; k < strikes.Count; k++)
            {
                for (int d = 0; d < datesVol.Count; d++)
                {
                    helperPeriod = new Period(datesVol[d] - settlementDate, TimeUnit.Days);
                    calibrationHelpers.Add(new HestonModelHelper(helperPeriod,
                                                                 calendar,
                                                                 underlying,
                                                                 strikes[k],
                                                                 new Handle <Quote>(new SimpleQuote(blackVolMatrix[d, k])),
                                                                 flatTermStructure,
                                                                 flatDividendTS,
                                                                 CalibrationHelper.CalibrationErrorType.ImpliedVolError));
                }
            }


            // starting data
            double v0    = 0.1;
            double kappa = 1.0;
            double theta = 0.1;
            double sigma = 0.5;
            double rho   = -0.5;

            // model
            HestonProcess hestonProcess = new HestonProcess(flatTermStructure,
                                                            flatDividendTS,
                                                            underlyingH,
                                                            v0, kappa, theta, sigma, rho);

            HestonModel hestonmodel = new HestonModel(hestonProcess);

            AnalyticHestonEngine analyticHestonEngine = new AnalyticHestonEngine(hestonmodel);


            foreach (HestonModelHelper hmh in calibrationHelpers)
            {
                hmh.setPricingEngine(analyticHestonEngine);
            }


            // optimization
            double             tolerance          = 1.0e-8;
            LevenbergMarquardt optimizationmethod = new LevenbergMarquardt(tolerance, tolerance, tolerance);

            hestonmodel.calibrate(calibrationHelpers, optimizationmethod, new EndCriteria(400, 40, tolerance, tolerance, tolerance));

            double        error     = 0.0;
            List <double> errorList = new InitializedList <double>();


            ////////////////  CALIBRATION RESULTS  //////////////////////////////////////////////
            Console.WriteLine("Calbration :");
            Console.WriteLine("-----------");

            foreach (HestonModelHelper hmh in calibrationHelpers)
            {
                error += Math.Abs(hmh.calibrationError());
                errorList.Add(Math.Abs(hmh.calibrationError()));
            }

            Vector hestonParameters = hestonmodel.parameters();

            Console.WriteLine("v0    = {0:0.00%}", hestonParameters[4]);
            Console.WriteLine("kappa = {0:0.00%}", hestonParameters[1]);
            Console.WriteLine("theta = {0:0.00%}", hestonParameters[0]);
            Console.WriteLine("sigma = {0:0.00%}", hestonParameters[2]);
            Console.WriteLine("rho   = {0:0.00%}", hestonParameters[3]);
            Console.WriteLine();
            Console.WriteLine("Total error = {0:0.0000}", error);
            Console.WriteLine("Mean error  = {0:0.0000%}", error / (errorList.Count - 1));
            Console.WriteLine();

            int    StepsPerYear      = 52;
            double absoluteTolerance = 80.0;
            ulong  mcSeed            = 42;

            // MC Heston process
            HestonProcess calibratedHestonProcess = new HestonProcess(flatTermStructure,
                                                                      flatDividendTS,
                                                                      underlyingH,
                                                                      hestonParameters[4],
                                                                      hestonParameters[1],
                                                                      hestonParameters[0],
                                                                      hestonParameters[2],
                                                                      hestonParameters[3]);

            // BS process
            GeneralizedBlackScholesProcessTolerance bsmProcess = new GeneralizedBlackScholesProcessTolerance(underlyingH, FixedDivTermStructure, flatTermStructure, mySurfaceH);

            ////////////////  ENGINES  /////////////////////////////////////////////////


            IPricingEngine mcHestonEngine = new MakeMCEuropeanHestonEngine <PseudoRandom, Statistics>(calibratedHestonProcess)
                                            .withStepsPerYear(StepsPerYear)
                                            .withAbsoluteTolerance(absoluteTolerance)
                                            .withSeed(mcSeed)
                                            .getAsPricingEngine();

            double         absoluteTolerance2      = 1.0;
            IPricingEngine mcGenHestonEngineTestbs = new MakeMCGenericScriptInstrument <PseudoRandom>(bsmProcess)
                                                     .withStepsPerYear(StepsPerYear)
                                                     .withAbsoluteTolerance(absoluteTolerance2)
                                                     .withSeed(mcSeed)
                                                     .value();

            IPricingEngine mcGenHestonEngineTestbs2 = new MakeMCGenericScriptInstrument <PseudoRandom>(calibratedHestonProcess)
                                                      .withStepsPerYear(StepsPerYear)
                                                      .withAbsoluteTolerance(absoluteTolerance2)
                                                      .withSeed(mcSeed)
                                                      .value();


            ////////////////  PRICING  //////////////////////////////////////////////
            Console.WriteLine("Pricing Vanilla:");
            Console.WriteLine("---------------");


            Date     maturity         = new Date(17, Month.May, 2019);
            Exercise europeanExercise = new EuropeanExercise(maturity);

            Option.Type       type           = Option.Type.Call;
            double            strike         = underlying;
            StrikedTypePayoff payoff         = new PlainVanillaPayoff(type, strike);
            VanillaOption     europeanOption = new VanillaOption(payoff, europeanExercise);

            // heston
            europeanOption.setPricingEngine(analyticHestonEngine);
            Console.Write("Heston pricing = {0:0.0000}", europeanOption.NPV());
            Console.WriteLine("  ->   {0:0.0000%}", europeanOption.NPV() / underlying);

            // Mc heston
            europeanOption.setPricingEngine(mcHestonEngine);
            Console.Write("HestMC pricing = {0:0.0000}", europeanOption.NPV());
            Console.Write("  ->   {0:0.0000%}", europeanOption.NPV() / underlying);
            Console.WriteLine("  tolerance   {0:0.0} / {1:0.00%}", absoluteTolerance, absoluteTolerance / underlying);

            // analytic bs
            europeanOption.setPricingEngine(new AnalyticEuropeanEngine(bsmProcess));
            Console.Write("BS pricing     = {0:0.0000}", europeanOption.NPV());
            Console.WriteLine("  ->   {0:0.0000%}", europeanOption.NPV() / underlying);


            Console.WriteLine();
            ////////////////  AUTOCALL HESTON //////////////////////////////////////////////

            List <Date> fixingdates = new InitializedList <Date>();
            double      coupon      = 0.05;
            double      barrierlvl  = 0.6;

            for (int i = 1; i <= 4; i++)
            {
                fixingdates.Add(settlementDate + new Period(i, TimeUnit.Years));
            }

            ScriptGenericAutocall myGenericAutocallHTTEst = new ScriptGenericAutocall(fixingdates, coupon, barrierlvl, underlying);

            myGenericAutocallHTTEst.setPricingEngine(mcGenHestonEngineTestbs);

            Console.WriteLine("Pricing Autocall BS :");
            Console.WriteLine("---------------------");
            Console.WriteLine("test = {0:0.0000}", myGenericAutocallHTTEst.NPV());
            Console.WriteLine("Err = {0:0.0000%}", myGenericAutocallHTTEst.errorEstimate() / myGenericAutocallHTTEst.NPV());
            Console.WriteLine("Samples = {0}", myGenericAutocallHTTEst.samples());
            Console.Write("\n");

            for (int i = 0; i < 4; i++)
            {
                Console.WriteLine("ProbaCall {1} = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaCall " + i), i + 1);
            }
            Console.WriteLine("ProbaMid = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaMid"));
            Console.WriteLine("probaDown = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.WriteLine("test = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.WriteLine("AvgDown/Proba = {0:0.0000%}", myGenericAutocallHTTEst.inspout("AvgDown") / myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.Write("\n");


            myGenericAutocallHTTEst.setPricingEngine(mcGenHestonEngineTestbs2);

            Console.WriteLine("Pricing Autocall Heston:");
            Console.WriteLine("------------------------");
            Console.WriteLine("test = {0:0.0000}", myGenericAutocallHTTEst.NPV());
            Console.WriteLine("Err = {0:0.0000%}", myGenericAutocallHTTEst.errorEstimate() / myGenericAutocallHTTEst.NPV());
            Console.WriteLine("Samples = {0}", myGenericAutocallHTTEst.samples());
            Console.Write("\n");

            for (int i = 0; i < 4; i++)
            {
                Console.WriteLine("ProbaCall {1} = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaCall " + i), i + 1);
            }
            Console.WriteLine("ProbaMid = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaMid"));
            Console.WriteLine("probaDown = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.WriteLine("test = {0:0.0000%}", myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.WriteLine("AvgDown/Proba = {0:0.0000%}", myGenericAutocallHTTEst.inspout("AvgDown") / myGenericAutocallHTTEst.inspout("ProbaDown"));
            Console.Write("\n");


            ////////////////  END TEST  //////////////////////////////////////////////
            Console.WriteLine();
            Console.WriteLine(" \nRun completed in {0}", DateTime.Now - timer);
            Console.WriteLine();

            Console.Write("Press any key to continue ...");
            Console.ReadKey();
        }
示例#3
0
 internal static global::System.Runtime.InteropServices.HandleRef getCPtr(AnalyticHestonEngine obj)
 {
     return((obj == null) ? new global::System.Runtime.InteropServices.HandleRef(null, global::System.IntPtr.Zero) : obj.swigCPtr);
 }
示例#4
0
        public void testFdmHestonConvergence()
        {
            /* convergence tests based on
             * ADI finite difference schemes for option pricing in the
             * Heston model with correlation, K.J. in t'Hout and S. Foulon
             */

            //Testing FDM Heston convergence...

            using (SavedSettings backup = new SavedSettings())
            {
                HestonTestData[] values = new HestonTestData[] {
                    new HestonTestData(1.5, 0.04, 0.3, -0.9, 0.025, 0.0, 1.0, 100),
                    new HestonTestData(3.0, 0.12, 0.04, 0.6, 0.01, 0.04, 1.0, 100),
                    new HestonTestData(0.6067, 0.0707, 0.2928, -0.7571, 0.03, 0.0, 3.0, 100),
                    new HestonTestData(2.5, 0.06, 0.5, -0.1, 0.0507, 0.0469, 0.25, 100)
                };

                FdmSchemeDesc[] schemes = new FdmSchemeDesc[] {
                    new FdmSchemeDesc().Hundsdorfer(),
                    new FdmSchemeDesc().ModifiedCraigSneyd(),
                    new FdmSchemeDesc().ModifiedHundsdorfer(),
                    new FdmSchemeDesc().CraigSneyd(),
                    new FdmSchemeDesc().TrBDF2(),
                    new FdmSchemeDesc().CrankNicolson(),
                };

                int[]    tn = new int[] { 60 };
                double[] v0 = new double[] { 0.04 };

                Date todaysDate = new Date(28, 3, 2004);
                Settings.Instance.setEvaluationDate(todaysDate);

                Handle <Quote> s0 = new Handle <Quote>(new SimpleQuote(75.0));

                for (int l = 0; l < schemes.Length; ++l)
                {
                    for (int i = 0; i < values.Length; ++i)
                    {
                        for (int j = 0; j < tn.Length; ++j)
                        {
                            for (int k = 0; k < v0.Length; ++k)
                            {
                                Handle <YieldTermStructure> rTS = new Handle <YieldTermStructure>(
                                    Utilities.flatRate(values[i].r, new Actual365Fixed()));
                                Handle <YieldTermStructure> qTS = new Handle <YieldTermStructure>(
                                    Utilities.flatRate(values[i].q, new Actual365Fixed()));

                                HestonProcess hestonProcess =
                                    new HestonProcess(rTS, qTS, s0,
                                                      v0[k],
                                                      values[i].kappa,
                                                      values[i].theta,
                                                      values[i].sigma,
                                                      values[i].rho);

                                Date exerciseDate = todaysDate
                                                    + new Period(Convert.ToInt32(values[i].T * 365), TimeUnit.Days);

                                Exercise          exercise = new EuropeanExercise(exerciseDate);
                                StrikedTypePayoff payoff   = new PlainVanillaPayoff(Option.Type.Call, values[i].K);

                                VanillaOption  option = new VanillaOption(payoff, exercise);
                                IPricingEngine engine =
                                    new FdHestonVanillaEngine(
                                        new HestonModel(hestonProcess),
                                        tn[j], 101, 51, 0,
                                        schemes[l]);

                                option.setPricingEngine(engine);

                                double calculated = option.NPV();

                                IPricingEngine analyticEngine =
                                    new AnalyticHestonEngine(
                                        new HestonModel(hestonProcess), 144);

                                option.setPricingEngine(analyticEngine);
                                double expected = option.NPV();
                                if (Math.Abs(expected - calculated) / expected > 0.02 &&
                                    Math.Abs(expected - calculated) > 0.002)
                                {
                                    QAssert.Fail("Failed to reproduce expected npv"
                                                 + "\n    calculated: " + calculated
                                                 + "\n    expected:   " + expected
                                                 + "\n    tolerance:  " + 0.01);
                                }
                            }
                        }
                    }
                }
            }
        }