Example #1
0
        public Swaption value()
        {
            Date     evaluationDate = Settings.evaluationDate();
            Calendar fixingCalendar = swapIndex_.fixingCalendar();

            fixingDate_ = fixingCalendar.advance(evaluationDate, optionTenor_, optionConvention_);

            if (exerciseDate_ == null)
            {
                exercise_ = new EuropeanExercise(fixingDate_);
            }
            else
            {
                if (exerciseDate_ <= fixingDate_)
                {
                    throw new ArgumentException(
                              "exercise date (" + exerciseDate_ + ") must be less " +
                              "than or equal to fixing date (" + fixingDate_ + ")");
                }
                exercise_ = new EuropeanExercise(exerciseDate_);
            }

            double usedStrike;

            if (strike_ == null)
            {
                // ATM on the forecasting curve
                if (!swapIndex_.forwardingTermStructure().empty())
                {
                    throw new ArgumentException(
                              "no forecasting term structure set to " + swapIndex_.name());
                }
                VanillaSwap temp =
                    swapIndex_.underlyingSwap(fixingDate_);
                temp.setPricingEngine(new DiscountingSwapEngine(
                                          swapIndex_.forwardingTermStructure()));
                usedStrike = temp.fairRate();
            }
            else
            {
                usedStrike = strike_.Value;
            }

            BusinessDayConvention bdc = swapIndex_.fixedLegConvention();

            underlyingSwap_ = new MakeVanillaSwap(swapIndex_.tenor(),
                                                  swapIndex_.iborIndex(),
                                                  usedStrike)
                              .withEffectiveDate(swapIndex_.valueDate(fixingDate_))
                              .withFixedLegCalendar(swapIndex_.fixingCalendar())
                              .withFixedLegDayCount(swapIndex_.dayCounter())
                              .withFixedLegConvention(bdc)
                              .withFixedLegTerminationDateConvention(bdc);

            Swaption swaption = new Swaption(underlyingSwap_, exercise_, delivery_);

            swaption.setPricingEngine(engine_);
            return(swaption);
        }
Example #2
0
 public override double modelValue()
 {
     swaption_.setPricingEngine(engine_);
     return(swaption_.NPV());
 }
Example #3
0
        public override void calculate()
        {
            /* both DTS, YTS ref dates and pricing date consistency
             * checks? settlement... */
            Utils.QL_REQUIRE(!discountCurve_.empty(), () => "no discount term structure set");
            Utils.QL_REQUIRE(!defaultTS_.empty(), () => "no ctpty default term structure set");
            Utils.QL_REQUIRE(!swaptionletEngine_.empty(), () => "no swap option engine set");

            Date priceDate = defaultTS_.link.referenceDate();

            double cumOptVal = 0.0, cumPutVal = 0.0;
            // Vanilla swap so 0 leg is floater

            int  index        = 0;
            Date nextFD       = arguments_.fixedPayDates[index];
            Date swapletStart = priceDate;

            while (nextFD < priceDate)
            {
                index++;
                nextFD = arguments_.fixedPayDates[index];
            }


            // Compute fair spread for strike value:
            // copy args into the non risky engine
            Swap.Arguments noCVAArgs = baseSwapEngine_.link.getArguments() as Swap.Arguments;

            noCVAArgs.legs  = this.arguments_.legs;
            noCVAArgs.payer = this.arguments_.payer;

            baseSwapEngine_.link.calculate();

            double baseSwapRate = ((FixedRateCoupon)arguments_.legs[0][0]).rate();

            Swap.Results vSResults = baseSwapEngine_.link.getResults() as Swap.Results;

            double?baseSwapFairRate = -baseSwapRate * vSResults.legNPV[1] / vSResults.legNPV[0];
            double?baseSwapNPV      = vSResults.value;

            VanillaSwap.Type reversedType = arguments_.type == VanillaSwap.Type.Payer
                                         ? VanillaSwap.Type.Receiver
                                         : VanillaSwap.Type.Payer;

            // Swaplet options summatory:
            while (nextFD != arguments_.fixedPayDates.Last())
            {
                // iFD coupon not fixed, create swaptionlet:
                IborIndex swapIndex = ((FloatingRateCoupon)arguments_.legs[1][0]).index() as IborIndex;

                // Alternatively one could cap this period to, say, 1M
                Period baseSwapsTenor = new Period(arguments_.fixedPayDates.Last().serialNumber()
                                                   - swapletStart.serialNumber(), TimeUnit.Days);
                VanillaSwap swaplet = new MakeVanillaSwap(baseSwapsTenor, swapIndex, baseSwapFairRate)
                                      .withType(arguments_.type)
                                      .withNominal(arguments_.nominal)
                                      .withEffectiveDate(swapletStart)
                                      .withTerminationDate(arguments_.fixedPayDates.Last()).value();

                VanillaSwap revSwaplet = new MakeVanillaSwap(baseSwapsTenor, swapIndex, baseSwapFairRate)
                                         .withType(reversedType)
                                         .withNominal(arguments_.nominal)
                                         .withEffectiveDate(swapletStart)
                                         .withTerminationDate(arguments_.fixedPayDates.Last()).value();

                Swaption swaptionlet = new Swaption(swaplet, new EuropeanExercise(swapletStart));
                Swaption putSwaplet  = new Swaption(revSwaplet, new EuropeanExercise(swapletStart));
                swaptionlet.setPricingEngine(swaptionletEngine_.currentLink());
                putSwaplet.setPricingEngine(swaptionletEngine_.currentLink());

                // atm underlying swap means that the value of put = value
                // call so this double pricing is not needed
                cumOptVal += swaptionlet.NPV() * defaultTS_.link.defaultProbability(
                    swapletStart, nextFD);
                cumPutVal += putSwaplet.NPV() * invstDTS_.link.defaultProbability(swapletStart, nextFD);

                swapletStart = nextFD;
                index++;
                nextFD = arguments_.fixedPayDates[index];
            }

            results_.value    = baseSwapNPV - (1.0 - ctptyRecoveryRate_) * cumOptVal + (1.0 - invstRecoveryRate_) * cumPutVal;
            results_.fairRate = -baseSwapRate * (vSResults.legNPV[1] - (1.0 - ctptyRecoveryRate_) * cumOptVal +
                                                 (1.0 - invstRecoveryRate_) * cumPutVal) / vSResults.legNPV[0];
        }