public ConundrumIntegrand(VanillaOptionPricer o, YieldTermStructure curve, GFunction gFunction, Date fixingDate, Date paymentDate, double annuity, double forwardValue, double strike, Option.Type optionType)
{
vanillaOptionPricer_ = o;
forwardValue_ = forwardValue;
annuity_ = annuity;
fixingDate_ = fixingDate;
paymentDate_ = paymentDate;
strike_ = strike;
optionType_ = optionType;
gFunction_ = gFunction;
}
public ConundrumIntegrand(VanillaOptionPricer o, YieldTermStructure curve, GFunction gFunction, Date fixingDate, Date paymentDate, double annuity, double forwardValue, double strike, Option.Type optionType) {
vanillaOptionPricer_ = o;
forwardValue_ = forwardValue;
annuity_ = annuity;
fixingDate_ = fixingDate;
paymentDate_ = paymentDate;
strike_ = strike;
optionType_ = optionType;
gFunction_ = gFunction;
}
public override void initialize(FloatingRateCoupon coupon)
{
coupon_ = coupon as CmsCoupon;
Utils.QL_REQUIRE( coupon_ != null, () => "CMS coupon needed" );
gearing_ = coupon_.gearing();
spread_ = coupon_.spread();
fixingDate_ = coupon_.fixingDate();
paymentDate_ = coupon_.date();
SwapIndex swapIndex = coupon_.swapIndex();
rateCurve_ = swapIndex.forwardingTermStructure().link;
Date today = Settings.evaluationDate();
if (paymentDate_ > today)
discount_ = rateCurve_.discount(paymentDate_);
else
discount_ = 1.0;
spreadLegValue_ = spread_ * coupon_.accrualPeriod() * discount_;
if (fixingDate_ > today) {
swapTenor_ = swapIndex.tenor();
VanillaSwap swap = swapIndex.underlyingSwap(fixingDate_);
swapRateValue_ = swap.fairRate();
double bp = 1.0e-4;
annuity_ = (swap.floatingLegBPS() / bp);
int q = (int)swapIndex.fixedLegTenor().frequency();
Schedule schedule = swap.fixedSchedule();
DayCounter dc = swapIndex.dayCounter();
//DayCounter dc = coupon.dayCounter();
double startTime = dc.yearFraction(rateCurve_.referenceDate(), swap.startDate());
double swapFirstPaymentTime = dc.yearFraction(rateCurve_.referenceDate(), schedule.date(1));
double paymentTime = dc.yearFraction(rateCurve_.referenceDate(), paymentDate_);
double delta = (paymentTime - startTime) / (swapFirstPaymentTime - startTime);
switch (modelOfYieldCurve_) {
case GFunctionFactory.YieldCurveModel.Standard:
gFunction_ = GFunctionFactory.newGFunctionStandard(q, delta, swapTenor_.length());
break;
case GFunctionFactory.YieldCurveModel.ExactYield:
gFunction_ = GFunctionFactory.newGFunctionExactYield(coupon_);
break;
case GFunctionFactory.YieldCurveModel.ParallelShifts: {
Handle<Quote> nullMeanReversionQuote = new Handle<Quote>(new SimpleQuote(0.0));
gFunction_ = GFunctionFactory.newGFunctionWithShifts(coupon_, nullMeanReversionQuote);
}
break;
case GFunctionFactory.YieldCurveModel.NonParallelShifts:
gFunction_ = GFunctionFactory.newGFunctionWithShifts(coupon_, meanReversion_);
break;
default:
throw new ApplicationException("unknown/illegal gFunction type");
}
vanillaOptionPricer_ = new BlackVanillaOptionPricer(swapRateValue_, fixingDate_, swapTenor_, swaptionVolatility().link);
}
}
