示例#1
0
 internal static global::System.Runtime.InteropServices.HandleRef getCPtr(Callability 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)
        {
            try
            {
                Option.Type type       = Option.Type.Put;
                double      underlying = 36.0;
                double      spreadRate = 0.005;

                double dividendYield = 0.02;
                double riskFreeRate  = 0.06;
                double volatility    = 0.2;

                int    settlementDays  = 3;
                int    length          = 5;
                double redemption      = 100.0;
                double conversionRatio = redemption / underlying; // at the money

                // set up dates/schedules
                Calendar calendar = new TARGET();
                Date     today    = calendar.adjust(Date.Today);

                Settings.setEvaluationDate(today);
                Date settlementDate = calendar.advance(today, settlementDays, TimeUnit.Days);
                Date exerciseDate   = calendar.advance(settlementDate, length, TimeUnit.Years);
                Date issueDate      = calendar.advance(exerciseDate, -length, TimeUnit.Years);

                BusinessDayConvention convention = BusinessDayConvention.ModifiedFollowing;

                Frequency frequency = Frequency.Annual;

                Schedule schedule = new Schedule(issueDate, exerciseDate,
                                                 new Period(frequency), calendar, convention, convention,
                                                 DateGeneration.Rule.Backward, false);

                DividendSchedule    dividends   = new DividendSchedule();
                CallabilitySchedule callability = new CallabilitySchedule();

                List <double> coupons      = new InitializedList <double>(1, 0.05);
                DayCounter    bondDayCount = new Thirty360();

                int[] callLength = { 2, 4 }; // Call dates, years 2,4.
                int[] putLength  = { 3 };    // Put dates year 3.

                double[] callPrices = { 101.5, 100.85 };
                double[] putPrices  = { 105.0 };

                // Load call schedules
                for (int i = 0; i < callLength.Length; i++)
                {
                    SoftCallability s = new SoftCallability(
                        new Callability.Price(callPrices[i], Callability.Price.Type.Clean), schedule.date(callLength[i]),
                        1.20);
                    callability.Add(s);
                }

                for (int j = 0; j < putLength.Length; j++)
                {
                    Callability s = new Callability(new Callability.Price(putPrices[j], Callability.Price.Type.Clean),
                                                    Callability.Type.Put, schedule.date(putLength[j]));
                    callability.Add(s);
                }

                // Assume dividends are paid every 6 months .
                for (Date d = today + new Period(6, TimeUnit.Months); d < exerciseDate; d += new Period(6, TimeUnit.Months))
                {
                    Dividend div = new FixedDividend(1.0, d);
                    dividends.Add(div);
                }

                DayCounter dayCounter = new Actual365Fixed();
                double     maturity   = dayCounter.yearFraction(settlementDate, exerciseDate);

                Console.WriteLine("option type = " + type);
                Console.WriteLine("Time to maturity = " + maturity);
                Console.WriteLine("Underlying price = " + underlying);
                Console.WriteLine("Risk-free interest rate = {0:0.0%}", riskFreeRate);
                Console.WriteLine("Dividend yield = {0:0.0%}%", dividendYield);
                Console.WriteLine("Volatility = {0:0.0%}%", volatility);
                Console.WriteLine("");


                // write column headings
                int[]  widths     = { 35, 14, 14 };
                int    totalWidth = widths[0] + widths[1] + widths[2];
                string rule       = new string('-', totalWidth);
                string dblrule    = new string('=', totalWidth);

                Console.WriteLine(dblrule);
                Console.WriteLine("Tsiveriotis-Fernandes method");
                Console.WriteLine(dblrule);
                Console.WriteLine("Tree Type                           European     American        ");
                Console.WriteLine(rule);


                Exercise exercise   = new EuropeanExercise(exerciseDate);
                Exercise amexercise = new AmericanExercise(settlementDate, exerciseDate);

                Handle <Quote> underlyingH = new Handle <Quote>(new SimpleQuote(underlying));
                Handle <YieldTermStructure> flatTermStructure =
                    new Handle <YieldTermStructure>(new FlatForward(settlementDate, riskFreeRate, dayCounter));
                Handle <YieldTermStructure> flatDividendTS =
                    new Handle <YieldTermStructure>(new FlatForward(settlementDate, dividendYield, dayCounter));
                Handle <BlackVolTermStructure> flatVolTS =
                    new Handle <BlackVolTermStructure>(new BlackConstantVol(settlementDate, calendar, volatility,
                                                                            dayCounter));

                BlackScholesMertonProcess stochasticProcess =
                    new BlackScholesMertonProcess(underlyingH, flatDividendTS, flatTermStructure, flatVolTS);

                int timeSteps = 801;

                Handle <Quote> creditSpread = new Handle <Quote>(new SimpleQuote(spreadRate));

                Quote rate = new SimpleQuote(riskFreeRate);

                Handle <YieldTermStructure> discountCurve =
                    new Handle <YieldTermStructure>(new FlatForward(today, new Handle <Quote>(rate), dayCounter));

                IPricingEngine engine = new BinomialConvertibleEngine <JarrowRudd>(stochasticProcess, timeSteps);

                ConvertibleFixedCouponBond europeanBond = new ConvertibleFixedCouponBond(exercise, conversionRatio,
                                                                                         dividends, callability, creditSpread, issueDate, settlementDays, coupons, bondDayCount, schedule,
                                                                                         redemption);

                europeanBond.setPricingEngine(engine);

                ConvertibleFixedCouponBond americanBond = new ConvertibleFixedCouponBond(amexercise, conversionRatio,
                                                                                         dividends, callability, creditSpread, issueDate, settlementDays, coupons, bondDayCount, schedule,
                                                                                         redemption);
                americanBond.setPricingEngine(engine);


                Console.WriteLine("Jarrow-Rudd                         {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <CoxRossRubinstein>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <CoxRossRubinstein>(stochasticProcess, timeSteps));

                Console.WriteLine("CoxRossRubinstein                   {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <AdditiveEQPBinomialTree>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <AdditiveEQPBinomialTree>(stochasticProcess, timeSteps));

                Console.WriteLine("AdditiveEQPBinomialTree             {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <Trigeorgis>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <Trigeorgis>(stochasticProcess, timeSteps));

                Console.WriteLine("Trigeorgis                          {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <Tian>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <Tian>(stochasticProcess, timeSteps));

                Console.WriteLine("Tian                                {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <LeisenReimer>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <LeisenReimer>(stochasticProcess, timeSteps));

                Console.WriteLine("LeisenReimer                        {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());

                americanBond.setPricingEngine(new BinomialConvertibleEngine <Joshi4>(stochasticProcess, timeSteps));
                europeanBond.setPricingEngine(new BinomialConvertibleEngine <Joshi4>(stochasticProcess, timeSteps));

                Console.WriteLine("Joshi4                              {0:0.000000}   {1:0.000000}", europeanBond.NPV(), americanBond.NPV());
                Console.WriteLine("===========================================================================");
            }
            catch (Exception e)
            {
                Console.WriteLine(e.ToString());
            }

            Console.ReadKey();
        }
示例#3
0
 public SoftCallability(Callability.Price price,Date date,double trigger)
  : base(price, Callability.Type.Call, date) 
 {
    trigger_ = trigger;
 }