public compoundFactor ( Date d1, Date d2 ) : double | ||
d1 | Date | |
d2 | Date | |
Результат | double |
// Handle<YieldTermStructure> discountCurve = Handle<YieldTermStructure>()); public ForwardRateAgreement(Date valueDate, Date maturityDate, Position.Type type, double strikeForwardRate, double notionalAmount, IborIndex index, Handle <YieldTermStructure> discountCurve) : base(index.dayCounter(), index.fixingCalendar(), index.businessDayConvention(), index.fixingDays(), new Payoff(), valueDate, maturityDate, discountCurve) { fraType_ = type; notionalAmount_ = notionalAmount; index_ = index; if (notionalAmount <= 0.0) { throw new ApplicationException("notional Amount must be positive"); } // do I adjust this ? // valueDate_ = calendar_.adjust(valueDate_,businessDayConvention_); Date fixingDate = calendar_.advance(valueDate_, -settlementDays_, TimeUnit.Days); forwardRate_ = new InterestRate(index.fixing(fixingDate), index.dayCounter(), Compounding.Simple, Frequency.Once); strikeForwardRate_ = new InterestRate(strikeForwardRate, index.dayCounter(), Compounding.Simple, Frequency.Once); double strike = notionalAmount_ * strikeForwardRate_.compoundFactor(valueDate_, maturityDate_); payoff_ = new ForwardTypePayoff(fraType_, strike); // incomeDiscountCurve_ is irrelevant to an FRA incomeDiscountCurve_ = discountCurve_; // income is irrelevant to FRA - set it to zero underlyingIncome_ = 0.0; index_.registerWith(update); }
public void testConversions() { InterestRateData[] cases = { // data from "Option Pricing Formulas", Haug, pag.181-182 // Rate,Compounding, Frequency, Time, Compounding2, Frequency2, Rate2, precision new InterestRateData(0.0800, Compounding.Compounded, Frequency.Quarterly, 1.00, Compounding.Continuous, Frequency.Annual, 0.0792, 4), new InterestRateData(0.1200, Compounding.Continuous, Frequency.Annual, 1.00, Compounding.Compounded, Frequency.Annual, 0.1275, 4), new InterestRateData(0.0800, Compounding.Compounded, Frequency.Quarterly, 1.00, Compounding.Compounded, Frequency.Annual, 0.0824, 4), new InterestRateData(0.0700, Compounding.Compounded, Frequency.Quarterly, 1.00, Compounding.Compounded, Frequency.Semiannual, 0.0706, 4), // undocumented, but reasonable :) new InterestRateData(0.0100, Compounding.Compounded, Frequency.Annual, 1.00, Compounding.Simple, Frequency.Annual, 0.0100, 4), new InterestRateData(0.0200, Compounding.Simple, Frequency.Annual, 1.00, Compounding.Compounded, Frequency.Annual, 0.0200, 4), new InterestRateData(0.0300, Compounding.Compounded, Frequency.Semiannual, 0.50, Compounding.Simple, Frequency.Annual, 0.0300, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Annual, 0.50, Compounding.Compounded, Frequency.Semiannual, 0.0400, 4), new InterestRateData(0.0500, Compounding.Compounded, Frequency.EveryFourthMonth, 1.0/3, Compounding.Simple, Frequency.Annual, 0.0500, 4), new InterestRateData(0.0600, Compounding.Simple, Frequency.Annual, 1.0/3, Compounding.Compounded, Frequency.EveryFourthMonth, 0.0600, 4), new InterestRateData(0.0500, Compounding.Compounded, Frequency.Quarterly, 0.25, Compounding.Simple, Frequency.Annual, 0.0500, 4), new InterestRateData(0.0600, Compounding.Simple, Frequency.Annual, 0.25, Compounding.Compounded, Frequency.Quarterly, 0.0600, 4), new InterestRateData(0.0700, Compounding.Compounded, Frequency.Bimonthly, 1.0/6, Compounding.Simple, Frequency.Annual, 0.0700, 4), new InterestRateData(0.0800, Compounding.Simple, Frequency.Annual, 1.0/6, Compounding.Compounded, Frequency.Bimonthly, 0.0800, 4), new InterestRateData(0.0900, Compounding.Compounded, Frequency.Monthly, 1.0/12, Compounding.Simple, Frequency.Annual, 0.0900, 4), new InterestRateData(0.1000, Compounding.Simple, Frequency.Annual, 1.0/12, Compounding.Compounded, Frequency.Monthly, 0.1000, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.25, Compounding.Simple, Frequency.Annual, 0.0300, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.25, Compounding.Simple, Frequency.Semiannual, 0.0300, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.25, Compounding.Simple, Frequency.Quarterly, 0.0300, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.50, Compounding.Simple, Frequency.Annual, 0.0300, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.50, Compounding.Simple, Frequency.Semiannual, 0.0300, 4), new InterestRateData(0.0300, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.75, Compounding.Compounded, Frequency.Semiannual, 0.0300, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.25, Compounding.SimpleThenCompounded, Frequency.Quarterly, 0.0400, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.25, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.0400, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.25, Compounding.SimpleThenCompounded, Frequency.Annual, 0.0400, 4), new InterestRateData(0.0400, Compounding.Compounded, Frequency.Quarterly, 0.50, Compounding.SimpleThenCompounded, Frequency.Quarterly, 0.0400, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.50, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.0400, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.50, Compounding.SimpleThenCompounded, Frequency.Annual, 0.0400, 4), new InterestRateData(0.0400, Compounding.Compounded, Frequency.Quarterly, 0.75, Compounding.SimpleThenCompounded, Frequency.Quarterly, 0.0400, 4), new InterestRateData(0.0400, Compounding.Compounded, Frequency.Semiannual, 0.75, Compounding.SimpleThenCompounded, Frequency.Semiannual, 0.0400, 4), new InterestRateData(0.0400, Compounding.Simple, Frequency.Semiannual, 0.75, Compounding.SimpleThenCompounded, Frequency.Annual, 0.0400, 4) }; Rounding roundingPrecision; double r3; double r2; Date d1 = Date.Today; Date d2; InterestRate ir; InterestRate ir2; InterestRate ir3; InterestRate expectedIR; double compoundf; double error; double disc; for (int i = 0; i < cases.Length-1 ; i++) { ir = new InterestRate(cases[i].r, new Actual360(), cases[i].comp, cases[i].freq); d2 = d1 + new Period((int)(360 * cases[i].t + 0.5) ,TimeUnit.Days); roundingPrecision = new Rounding(cases[i].precision); // check that the compound factor is the inverse of the discount factor compoundf = ir.compoundFactor(d1, d2); disc = ir.discountFactor(d1, d2); error = Math.Abs(disc - 1.0 / compoundf); if (error > 1e-15) Assert.Fail(ir + " 1.0/compound_factor: " + 1.0 / compoundf); // check that the equivalent InterestRate with *same* daycounter, // compounding, and frequency is the *same* InterestRate ir2 = ir.equivalentRate(d1, d2, ir.dayCounter(), ir.compounding(), ir.frequency()); error = Math.Abs(ir.rate() - ir2.rate()); if (error > 1e-15) Assert.Fail("original interest rate: " + ir + " equivalent interest rate: " + ir2 + " rate error: " + error); if (ir.dayCounter() != ir2.dayCounter()) Assert.Fail("day counter error original interest rate: " + ir + " equivalent interest rate: " + ir2); if (ir.compounding() != ir2.compounding()) Assert.Fail("compounding error original interest rate: " + ir + " equivalent interest rate: " + ir2); if (ir.frequency() != ir2.frequency()) Assert.Fail("frequency error original interest rate: " + ir + " equivalent interest rate: " + ir2); // check that the equivalent rate with *same* daycounter, // compounding, and frequency is the *same* rate r2 = ir.equivalentRate(d1, d2, ir.dayCounter(), ir.compounding(), ir.frequency()).rate(); error = Math.Abs(ir.rate() - r2); if (error > 1e-15) Assert.Fail("original rate: " + ir + " equivalent rate: " + r2 + " error: " + error); // check that the equivalent InterestRate with *different* // compounding, and frequency is the *expected* InterestRate ir3 = ir.equivalentRate(d1, d2, ir.dayCounter(), cases[i].comp2, cases[i].freq2); expectedIR = new InterestRate(cases[i].expected, ir.dayCounter(), cases[i].comp2, cases[i].freq2); r3 = roundingPrecision.Round(ir3.rate()); error = Math.Abs(r3 - expectedIR.rate()); if (error > 1.0e-17) Assert.Fail("original interest rate: " + ir + " calculated equivalent interest rate: " + ir3 + " truncated equivalent rate: " + r3 + " expected equivalent interest rate: " + expectedIR + " rate error: " + error); if (ir3.dayCounter() != expectedIR.dayCounter()) Assert.Fail("day counter error original interest rate: " + ir3 + " equivalent interest rate: " + expectedIR); if (ir3.compounding() != expectedIR.compounding()) Assert.Fail("compounding error original interest rate: " + ir3 + " equivalent interest rate: " + expectedIR); if (ir3.frequency() != expectedIR.frequency()) Assert.Fail("frequency error original interest rate: " + ir3 + " equivalent interest rate: " + expectedIR); // check that the equivalent rate with *different* // compounding, and frequency is the *expected* rate r3 = ir.equivalentRate(d1, d2, ir.dayCounter(), cases[i].comp2, cases[i].freq2).rate(); r3 = roundingPrecision.Round(r3); error = Math.Abs(r3 - cases[i].expected); if (error > 1.0e-17) Assert.Fail("calculated equivalent rate: " + r3 + " expected equivalent rate: " + cases[i].expected + " error: " + error); } }
// Handle<YieldTermStructure> discountCurve = Handle<YieldTermStructure>()); public ForwardRateAgreement(Date valueDate, Date maturityDate, Position.Type type, double strikeForwardRate, double notionalAmount, IborIndex index, Handle<YieldTermStructure> discountCurve) : base(index.dayCounter(), index.fixingCalendar(), index.businessDayConvention(), index.fixingDays(), new Payoff(), valueDate, maturityDate, discountCurve) { fraType_ = type; notionalAmount_ = notionalAmount; index_ = index; if (notionalAmount <= 0.0) throw new ApplicationException("notional Amount must be positive"); // do I adjust this ? // valueDate_ = calendar_.adjust(valueDate_,businessDayConvention_); Date fixingDate = calendar_.advance(valueDate_, -settlementDays_, TimeUnit.Days); forwardRate_ = new InterestRate(index.fixing(fixingDate), index.dayCounter(), Compounding.Simple, Frequency.Once); strikeForwardRate_ = new InterestRate(strikeForwardRate, index.dayCounter(), Compounding.Simple, Frequency.Once); double strike = notionalAmount_ * strikeForwardRate_.compoundFactor(valueDate_, maturityDate_); payoff_ = new ForwardTypePayoff(fraType_, strike); // incomeDiscountCurve_ is irrelevant to an FRA incomeDiscountCurve_ = discountCurve_; // income is irrelevant to FRA - set it to zero underlyingIncome_ = 0.0; index_.registerWith(update); }