C# (CSharp) QLNet Interpolation.enableExtrapolation примеры использования

Пример #1

Файл: swaptionvoldiscrete.cs Проект: akasolace/qlnet

        public SwaptionVolatilityDiscrete(List<Period> optionTenors,
                                   List<Period> swapTenors,
                                   int settlementDays,
                                   Calendar cal,
                                   BusinessDayConvention bdc,
                                   DayCounter dc)
            : base(settlementDays, cal, bdc, dc)
        {
            nOptionTenors_ = optionTenors.Count;
            optionTenors_ = optionTenors;
            optionDates_ = new InitializedList<Date>(nOptionTenors_);
            optionTimes_ = new InitializedList<double>(nOptionTenors_);
            optionDatesAsReal_ = new InitializedList<double>(nOptionTenors_);
            nSwapTenors_ = swapTenors.Count;
            swapTenors_ = swapTenors;
            swapLengths_ = new InitializedList<double>(nSwapTenors_);

            checkOptionTenors();
            initializeOptionDatesAndTimes();

            checkSwapTenors();
            initializeSwapLengths();

            optionInterpolator_ = new LinearInterpolation(optionTimes_,
                                            optionTimes_.Count,
                                            optionDatesAsReal_);
            optionInterpolator_.update();
            optionInterpolator_.enableExtrapolation();
            evaluationDate_ = Settings.evaluationDate();
            Settings.registerWith(update);
        }

Пример #2

Файл: swaptionvoldiscrete.cs Проект: minikie/OTCDerivativesCalculatorModule

        public SwaptionVolatilityDiscrete(List <Period> optionTenors,
                                          List <Period> swapTenors,
                                          Date referenceDate,
                                          Calendar cal,
                                          BusinessDayConvention bdc,
                                          DayCounter dc)
            : base(referenceDate, cal, bdc, dc)
        {
            nOptionTenors_     = optionTenors.Count;
            optionTenors_      = optionTenors;
            optionDates_       = new InitializedList <Date>(nOptionTenors_);
            optionTimes_       = new InitializedList <double>(nOptionTenors_);
            optionDatesAsReal_ = new InitializedList <double>(nOptionTenors_);
            nSwapTenors_       = swapTenors.Count;
            swapTenors_        = swapTenors;
            swapLengths_       = new InitializedList <double>(nSwapTenors_);

            checkOptionTenors();
            initializeOptionDatesAndTimes();

            checkSwapTenors();
            initializeSwapLengths();

            optionInterpolator_ = new LinearInterpolation(optionTimes_,
                                                          optionTimes_.Count,
                                                          optionDatesAsReal_);

            optionInterpolator_.update();
            optionInterpolator_.enableExtrapolation();
        }

Пример #3

Файл: swaptionvoldiscrete.cs Проект: minikie/OTCDerivativesCalculatorModule

        public SwaptionVolatilityDiscrete(List <Period> optionTenors,
                                          List <Period> swapTenors,
                                          int settlementDays,
                                          Calendar cal,
                                          BusinessDayConvention bdc,
                                          DayCounter dc)
            : base(settlementDays, cal, bdc, dc)
        {
            nOptionTenors_     = optionTenors.Count;
            optionTenors_      = optionTenors;
            optionDates_       = new InitializedList <Date>(nOptionTenors_);
            optionTimes_       = new InitializedList <double>(nOptionTenors_);
            optionDatesAsReal_ = new InitializedList <double>(nOptionTenors_);
            nSwapTenors_       = swapTenors.Count;
            swapTenors_        = swapTenors;
            swapLengths_       = new InitializedList <double>(nSwapTenors_);

            checkOptionTenors();
            initializeOptionDatesAndTimes();

            checkSwapTenors();
            initializeSwapLengths();

            optionInterpolator_ = new LinearInterpolation(optionTimes_,
                                                          optionTimes_.Count,
                                                          optionDatesAsReal_);
            optionInterpolator_.update();
            optionInterpolator_.enableExtrapolation();
            evaluationDate_ = Settings.evaluationDate();
            Settings.registerWith(update);
        }

Пример #4

Файл: VannaVolgaBarrierEngine.cs Проект: scchess/QLNet

        public override void calculate()
        {
            double sigmaShift_vega  = 0.0001;
            double sigmaShift_volga = 0.0001;
            double spotShift_delta  = 0.0001 * spotFX_.link.value();
            double sigmaShift_vanna = 0.0001;

            Handle <Quote> x0Quote     = new Handle <Quote>(new SimpleQuote(spotFX_.link.value())); //used for shift
            Handle <Quote> atmVolQuote = new Handle <Quote>(new SimpleQuote(atmVol_.link.value())); //used for shift

            BlackVolTermStructure blackVolTS = new BlackConstantVol(Settings.evaluationDate(),
                                                                    new NullCalendar(), atmVolQuote, new Actual365Fixed());
            BlackScholesMertonProcess stochProcess = new BlackScholesMertonProcess(x0Quote, foreignTS_, domesticTS_,
                                                                                   new Handle <BlackVolTermStructure>(blackVolTS));

            IPricingEngine engineBS = new AnalyticBarrierEngine(stochProcess);

            BlackDeltaCalculator blackDeltaCalculatorAtm = new BlackDeltaCalculator(
                Option.Type.Call, atmVol_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                atmVol_.link.value() * Math.Sqrt(T_));
            double atmStrike = blackDeltaCalculatorAtm.atmStrike(atmVol_.link.atmType());

            double call25Vol = vol25Call_.link.value();
            double put25Vol  = vol25Put_.link.value();

            BlackDeltaCalculator blackDeltaCalculatorPut25 = new BlackDeltaCalculator(
                Option.Type.Put, vol25Put_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                put25Vol * Math.Sqrt(T_));
            double put25Strike = blackDeltaCalculatorPut25.strikeFromDelta(-0.25);
            BlackDeltaCalculator blackDeltaCalculatorCall25 = new BlackDeltaCalculator(
                Option.Type.Call, vol25Call_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                call25Vol * Math.Sqrt(T_));
            double call25Strike = blackDeltaCalculatorCall25.strikeFromDelta(0.25);

            //here use vanna volga interpolated smile to price vanilla
            List <double> strikes = new List <double>();
            List <double> vols    = new List <double>();

            strikes.Add(put25Strike);
            vols.Add(put25Vol);
            strikes.Add(atmStrike);
            vols.Add(atmVol_.link.value());
            strikes.Add(call25Strike);
            vols.Add(call25Vol);
            VannaVolga vannaVolga = new VannaVolga(x0Quote.link.value(), domesticTS_.link.discount(T_),
                                                   foreignTS_.link.discount(T_), T_);
            Interpolation interpolation = vannaVolga.interpolate(strikes, strikes.Count, vols);

            interpolation.enableExtrapolation();
            StrikedTypePayoff payoff    = arguments_.payoff as StrikedTypePayoff;
            double            strikeVol = interpolation.value(payoff.strike());

            //vannila option price
            double vanillaOption = Utils.blackFormula(payoff.optionType(), payoff.strike(),
                                                      x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                      strikeVol * Math.Sqrt(T_),
                                                      domesticTS_.link.discount(T_));

            //spot > barrier up&out 0
            if (x0Quote.link.value() >= arguments_.barrier && arguments_.barrierType == Barrier.Type.UpOut)
            {
                results_.value = 0.0;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            //spot > barrier up&in vanilla
            else if (x0Quote.link.value() >= arguments_.barrier && arguments_.barrierType == Barrier.Type.UpIn)
            {
                results_.value = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            //spot < barrier down&out 0
            else if (x0Quote.link.value() <= arguments_.barrier && arguments_.barrierType == Barrier.Type.DownOut)
            {
                results_.value = 0.0;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            //spot < barrier down&in vanilla
            else if (x0Quote.link.value() <= arguments_.barrier && arguments_.barrierType == Barrier.Type.DownIn)
            {
                results_.value = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            else
            {
                //set up BS barrier option pricing
                //only calculate out barrier option price
                // in barrier price = vanilla - out barrier
                Barrier.Type barrierTyp;
                if (arguments_.barrierType == Barrier.Type.UpOut)
                {
                    barrierTyp = arguments_.barrierType;
                }
                else if (arguments_.barrierType == Barrier.Type.UpIn)
                {
                    barrierTyp = Barrier.Type.UpOut;
                }
                else if (arguments_.barrierType == Barrier.Type.DownOut)
                {
                    barrierTyp = arguments_.barrierType;
                }
                else
                {
                    barrierTyp = Barrier.Type.DownOut;
                }

                BarrierOption barrierOption = new BarrierOption(barrierTyp,
                                                                arguments_.barrier.GetValueOrDefault(),
                                                                arguments_.rebate.GetValueOrDefault(),
                                                                (StrikedTypePayoff)arguments_.payoff,
                                                                arguments_.exercise);

                barrierOption.setPricingEngine(engineBS);

                //BS price with atm vol
                double priceBS = barrierOption.NPV();

                double priceAtmCallBS = Utils.blackFormula(Option.Type.Call, atmStrike,
                                                           x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                           atmVol_.link.value() * Math.Sqrt(T_),
                                                           domesticTS_.link.discount(T_));
                double price25CallBS = Utils.blackFormula(Option.Type.Call, call25Strike,
                                                          x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                          atmVol_.link.value() * Math.Sqrt(T_),
                                                          domesticTS_.link.discount(T_));
                double price25PutBS = Utils.blackFormula(Option.Type.Put, put25Strike,
                                                         x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                         atmVol_.link.value() * Math.Sqrt(T_),
                                                         domesticTS_.link.discount(T_));

                //market price
                double priceAtmCallMkt = Utils.blackFormula(Option.Type.Call, atmStrike,
                                                            x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                            atmVol_.link.value() * Math.Sqrt(T_),
                                                            domesticTS_.link.discount(T_));

                double price25CallMkt = Utils.blackFormula(Option.Type.Call, call25Strike,
                                                           x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                           call25Vol * Math.Sqrt(T_),
                                                           domesticTS_.link.discount(T_));
                double price25PutMkt = Utils.blackFormula(Option.Type.Put, put25Strike,
                                                          x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                          put25Vol * Math.Sqrt(T_),
                                                          domesticTS_.link.discount(T_));


                //Analytical Black Scholes formula for vanilla option
                NormalDistribution norm  = new NormalDistribution();
                double             d1atm = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) /
                                                     domesticTS_.link.discount(T_) / atmStrike)
                                            + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) /
                                           (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vegaAtm_Analytical = x0Quote.link.value() * norm.value(d1atm) * Math.Sqrt(T_) *
                                            foreignTS_.link.discount(T_);
                double vannaAtm_Analytical = vegaAtm_Analytical / x0Quote.link.value() *
                                             (1.0 - d1atm / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volgaAtm_Analytical = vegaAtm_Analytical * d1atm * (d1atm - atmVolQuote.link.value() * Math.Sqrt(T_)) /
                                             atmVolQuote.link.value();

                double d125call = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) /
                                            domesticTS_.link.discount(T_) / call25Strike)
                                   + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) / (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vega25Call_Analytical = x0Quote.link.value() * norm.value(d125call) * Math.Sqrt(T_) *
                                               foreignTS_.link.discount(T_);
                double vanna25Call_Analytical = vega25Call_Analytical / x0Quote.link.value() *
                                                (1.0 - d125call / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volga25Call_Analytical = vega25Call_Analytical * d125call *
                                                (d125call - atmVolQuote.link.value() * Math.Sqrt(T_)) / atmVolQuote.link.value();

                double d125Put = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) /
                                           domesticTS_.link.discount(T_) / put25Strike)
                                  + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) / (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vega25Put_Analytical = x0Quote.link.value() * norm.value(d125Put) * Math.Sqrt(T_) *
                                              foreignTS_.link.discount(T_);
                double vanna25Put_Analytical = vega25Put_Analytical / x0Quote.link.value() *
                                               (1.0 - d125Put / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volga25Put_Analytical = vega25Put_Analytical * d125Put *
                                               (d125Put - atmVolQuote.link.value() * Math.Sqrt(T_)) / atmVolQuote.link.value();


                //BS vega
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vega);
                barrierOption.recalculate();
                double vegaBarBS = (barrierOption.NPV() - priceBS) / sigmaShift_vega;

                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() - sigmaShift_vega);//setback

                //BS volga

                //vegaBar2
                //base NPV
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_volga);
                barrierOption.recalculate();
                double priceBS2 = barrierOption.NPV();

                //shifted npv
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vega);
                barrierOption.recalculate();
                double vegaBarBS2 = (barrierOption.NPV() - priceBS2) / sigmaShift_vega;
                double volgaBarBS = (vegaBarBS2 - vegaBarBS) / sigmaShift_volga;

                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value()
                                                                  - sigmaShift_volga
                                                                  - sigmaShift_vega);                     //setback

                //BS Delta
                //base delta
                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//shift forth
                barrierOption.recalculate();
                double priceBS_delta1 = barrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() - 2 * spotShift_delta);//shift back
                barrierOption.recalculate();
                double priceBS_delta2 = barrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//set back
                double deltaBar1 = (priceBS_delta1 - priceBS_delta2) / (2.0 * spotShift_delta);

                //shifted delta
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vanna); //shift sigma
                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);          //shift forth
                barrierOption.recalculate();
                priceBS_delta1 = barrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() - 2 * spotShift_delta);//shift back
                barrierOption.recalculate();
                priceBS_delta2 = barrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//set back
                double deltaBar2 = (priceBS_delta1 - priceBS_delta2) / (2.0 * spotShift_delta);

                double vannaBarBS = (deltaBar2 - deltaBar1) / sigmaShift_vanna;

                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() - sigmaShift_vanna);//set back

                //Matrix
                Matrix A = new Matrix(3, 3, 0.0);

                //analytical
                A[0, 0] = vegaAtm_Analytical;
                A[0, 1] = vega25Call_Analytical;
                A[0, 2] = vega25Put_Analytical;
                A[1, 0] = vannaAtm_Analytical;
                A[1, 1] = vanna25Call_Analytical;
                A[1, 2] = vanna25Put_Analytical;
                A[2, 0] = volgaAtm_Analytical;
                A[2, 1] = volga25Call_Analytical;
                A[2, 2] = volga25Put_Analytical;

                Vector b = new Vector(3, 0.0);
                b[0] = vegaBarBS;
                b[1] = vannaBarBS;
                b[2] = volgaBarBS;

                //Vector q = inverse(A) * b; TODO implements transpose
                Vector q = Matrix.inverse(A) * b;


                //touch probability
                CumulativeNormalDistribution cnd = new CumulativeNormalDistribution();
                double mu = domesticTS_.link.zeroRate(T_, Compounding.Continuous).value() -
                            foreignTS_.link.zeroRate(T_, Compounding.Continuous).value() -
                            Math.Pow(atmVol_.link.value(), 2.0) / 2.0;
                double h2 = (Math.Log(arguments_.barrier.GetValueOrDefault() / x0Quote.link.value()) + mu * T_) /
                            (atmVol_.link.value() * Math.Sqrt(T_));
                double h2Prime = (Math.Log(x0Quote.link.value() / arguments_.barrier.GetValueOrDefault()) + mu * T_) /
                                 (atmVol_.link.value() * Math.Sqrt(T_));
                double probTouch = 0.0;
                if (arguments_.barrierType == Barrier.Type.UpIn || arguments_.barrierType == Barrier.Type.UpOut)
                {
                    probTouch = cnd.value(h2Prime) + Math.Pow(arguments_.barrier.GetValueOrDefault() / x0Quote.link.value(),
                                                              2.0 * mu / Math.Pow(atmVol_.link.value(), 2.0)) * cnd.value(-h2);
                }
                else
                {
                    probTouch = cnd.value(-h2Prime) + Math.Pow(arguments_.barrier.GetValueOrDefault() / x0Quote.link.value(),
                                                               2.0 * mu / Math.Pow(atmVol_.link.value(), 2.0)) * cnd.value(h2);
                }
                double p_survival = 1.0 - probTouch;

                double lambda = p_survival;
                double adjust = q[0] * (priceAtmCallMkt - priceAtmCallBS)
                                + q[1] * (price25CallMkt - price25CallBS)
                                + q[2] * (price25PutMkt - price25PutBS);
                double outPrice = priceBS + lambda * adjust;//
                double inPrice;

                //adapt Vanilla delta
                if (adaptVanDelta_ == true)
                {
                    outPrice += lambda * (bsPriceWithSmile_ - vanillaOption);
                    //capfloored by (0, vanilla)
                    outPrice = Math.Max(0.0, Math.Min(bsPriceWithSmile_, outPrice));
                    inPrice  = bsPriceWithSmile_ - outPrice;
                }
                else
                {
                    //capfloored by (0, vanilla)
                    outPrice = Math.Max(0.0, Math.Min(vanillaOption, outPrice));
                    inPrice  = vanillaOption - outPrice;
                }

                if (arguments_.barrierType == Barrier.Type.DownOut || arguments_.barrierType == Barrier.Type.UpOut)
                {
                    results_.value = outPrice;
                }
                else
                {
                    results_.value = inPrice;
                }

                results_.additionalResults["VanillaPrice"]    = vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = inPrice;
                results_.additionalResults["BarrierOutPrice"] = outPrice;
                results_.additionalResults["lambda"]          = lambda;
            }
        }

Пример #5

Файл: swaptionvoldiscrete.cs Проект: akasolace/qlnet

        public SwaptionVolatilityDiscrete(List<Period> optionTenors,
                                   List<Period> swapTenors,
                                   Date referenceDate,
                                   Calendar cal,
                                   BusinessDayConvention bdc,
                                   DayCounter dc)
            : base(referenceDate, cal, bdc, dc)
        {
            nOptionTenors_ = optionTenors.Count;
            optionTenors_ = optionTenors;
            optionDates_ = new InitializedList<Date>(nOptionTenors_);
            optionTimes_ = new InitializedList<double>(nOptionTenors_);
            optionDatesAsReal_ = new InitializedList<double>(nOptionTenors_);
            nSwapTenors_ = swapTenors.Count;
            swapTenors_ = swapTenors;
            swapLengths_ = new InitializedList<double>(nSwapTenors_);

            checkOptionTenors();
            initializeOptionDatesAndTimes();

            checkSwapTenors();
            initializeSwapLengths();

            optionInterpolator_ = new LinearInterpolation(optionTimes_,
                                            optionTimes_.Count,
                                            optionDatesAsReal_);

            optionInterpolator_.update();
            optionInterpolator_.enableExtrapolation();
        }

Пример #6

Файл: VannaVolgaDoubleBarrierEngine.cs Проект: sandboxorg/QLNet

        public override void calculate()
        {
            double sigmaShift_vega  = 0.001;
            double sigmaShift_volga = 0.0001;
            double spotShift_delta  = 0.0001 * spotFX_.link.value();
            double sigmaShift_vanna = 0.0001;

            Utils.QL_REQUIRE(arguments_.barrierType == DoubleBarrier.Type.KnockIn ||
                             arguments_.barrierType == DoubleBarrier.Type.KnockOut, () =>
                             "Only same type barrier supported");

            Handle <Quote> x0Quote     = new Handle <Quote>(new SimpleQuote(spotFX_.link.value()));
            Handle <Quote> atmVolQuote = new Handle <Quote>(new SimpleQuote(atmVol_.link.value()));

            BlackVolTermStructure blackVolTS = new BlackConstantVol(Settings.evaluationDate(),
                                                                    new NullCalendar(), atmVolQuote, new Actual365Fixed());

            BlackScholesMertonProcess stochProcess = new BlackScholesMertonProcess(x0Quote, foreignTS_, domesticTS_,
                                                                                   new Handle <BlackVolTermStructure>(blackVolTS));

            IPricingEngine engineBS = getOriginalEngine_(stochProcess, series_);

            BlackDeltaCalculator blackDeltaCalculatorAtm = new BlackDeltaCalculator(
                Option.Type.Call, atmVol_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                atmVol_.link.value() * Math.Sqrt(T_));

            double atmStrike = blackDeltaCalculatorAtm.atmStrike(atmVol_.link.atmType());

            double call25Vol = vol25Call_.link.value();
            double put25Vol  = vol25Put_.link.value();
            BlackDeltaCalculator blackDeltaCalculatorPut25 = new BlackDeltaCalculator(
                Option.Type.Put, vol25Put_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                put25Vol * Math.Sqrt(T_));
            double put25Strike = blackDeltaCalculatorPut25.strikeFromDelta(-0.25);
            BlackDeltaCalculator blackDeltaCalculatorCall25 = new BlackDeltaCalculator(
                Option.Type.Call, vol25Call_.link.deltaType(), x0Quote.link.value(),
                domesticTS_.link.discount(T_), foreignTS_.link.discount(T_),
                call25Vol * Math.Sqrt(T_));
            double call25Strike = blackDeltaCalculatorCall25.strikeFromDelta(0.25);

            //here use vanna volga interpolated smile to price vanilla
            List <double> strikes = new List <double>();
            List <double> vols    = new List <double>();

            strikes.Add(put25Strike);
            vols.Add(put25Vol);
            strikes.Add(atmStrike);
            vols.Add(atmVol_.link.value());
            strikes.Add(call25Strike);
            vols.Add(call25Vol);
            VannaVolga vannaVolga = new VannaVolga(x0Quote.link.value(), foreignTS_.link.discount(T_),
                                                   foreignTS_.link.discount(T_), T_);
            Interpolation interpolation = vannaVolga.interpolate(strikes, strikes.Count, vols);

            interpolation.enableExtrapolation();
            StrikedTypePayoff payoff = arguments_.payoff as StrikedTypePayoff;

            Utils.QL_REQUIRE(payoff != null, () => "invalid payoff");
            double strikeVol = interpolation.value(payoff.strike());
            //vannila option price
            double vanillaOption = Utils.blackFormula(payoff.optionType(), payoff.strike(),
                                                      x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                      strikeVol * Math.Sqrt(T_),
                                                      domesticTS_.link.discount(T_));

            //already out
            if ((x0Quote.link.value() > arguments_.barrier_hi || x0Quote.link.value() < arguments_.barrier_lo) &&
                arguments_.barrierType == DoubleBarrier.Type.KnockOut)
            {
                results_.value = 0.0;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            //already in
            else if ((x0Quote.link.value() > arguments_.barrier_hi || x0Quote.link.value() < arguments_.barrier_lo) &&
                     arguments_.barrierType == DoubleBarrier.Type.KnockIn)
            {
                results_.value = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["VanillaPrice"]    = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = adaptVanDelta_? bsPriceWithSmile_ : vanillaOption;
                results_.additionalResults["BarrierOutPrice"] = 0.0;
            }
            else
            {
                //set up BS barrier option pricing
                //only calculate out barrier option price
                // in barrier price = vanilla - out barrier
                //StrikedTypePayoff payoff = arguments_.payoff as StrikedTypePayoff;
                DoubleBarrierOption doubleBarrierOption = new DoubleBarrierOption(
                    arguments_.barrierType,
                    arguments_.barrier_lo.GetValueOrDefault(),
                    arguments_.barrier_hi.GetValueOrDefault(),
                    arguments_.rebate.GetValueOrDefault(),
                    payoff,
                    arguments_.exercise);

                doubleBarrierOption.setPricingEngine(engineBS);

                //BS price
                double priceBS = doubleBarrierOption.NPV();

                double priceAtmCallBS = Utils.blackFormula(Option.Type.Call, atmStrike,
                                                           x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                           atmVol_.link.value() * Math.Sqrt(T_),
                                                           domesticTS_.link.discount(T_));
                double price25CallBS = Utils.blackFormula(Option.Type.Call, call25Strike,
                                                          x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                          atmVol_.link.value() * Math.Sqrt(T_),
                                                          domesticTS_.link.discount(T_));
                double price25PutBS = Utils.blackFormula(Option.Type.Put, put25Strike,
                                                         x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                         atmVol_.link.value() * Math.Sqrt(T_),
                                                         domesticTS_.link.discount(T_));

                //market price
                double priceAtmCallMkt = Utils.blackFormula(Option.Type.Call, atmStrike,
                                                            x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                            atmVol_.link.value() * Math.Sqrt(T_),
                                                            domesticTS_.link.discount(T_));
                double price25CallMkt = Utils.blackFormula(Option.Type.Call, call25Strike,
                                                           x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                           call25Vol * Math.Sqrt(T_),
                                                           domesticTS_.link.discount(T_));
                double price25PutMkt = Utils.blackFormula(Option.Type.Put, put25Strike,
                                                          x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_),
                                                          put25Vol * Math.Sqrt(T_),
                                                          domesticTS_.link.discount(T_));

                //Analytical Black Scholes formula
                NormalDistribution norm  = new NormalDistribution();
                double             d1atm = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_) / atmStrike)
                                            + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) / (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vegaAtm_Analytical  = x0Quote.link.value() * norm.value(d1atm) * Math.Sqrt(T_) * foreignTS_.link.discount(T_);
                double vannaAtm_Analytical = vegaAtm_Analytical / x0Quote.link.value() * (1.0 - d1atm / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volgaAtm_Analytical = vegaAtm_Analytical * d1atm * (d1atm - atmVolQuote.link.value() * Math.Sqrt(T_)) / atmVolQuote.link.value();

                double d125call = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_) / call25Strike)
                                   + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) / (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vega25Call_Analytical  = x0Quote.link.value() * norm.value(d125call) * Math.Sqrt(T_) * foreignTS_.link.discount(T_);
                double vanna25Call_Analytical = vega25Call_Analytical / x0Quote.link.value() * (1.0 - d125call / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volga25Call_Analytical = vega25Call_Analytical * d125call * (d125call - atmVolQuote.link.value() * Math.Sqrt(T_)) / atmVolQuote.link.value();

                double d125Put = (Math.Log(x0Quote.link.value() * foreignTS_.link.discount(T_) / domesticTS_.link.discount(T_) / put25Strike)
                                  + 0.5 * Math.Pow(atmVolQuote.link.value(), 2.0) * T_) / (atmVolQuote.link.value() * Math.Sqrt(T_));
                double vega25Put_Analytical  = x0Quote.link.value() * norm.value(d125Put) * Math.Sqrt(T_) * foreignTS_.link.discount(T_);
                double vanna25Put_Analytical = vega25Put_Analytical / x0Quote.link.value() * (1.0 - d125Put / (atmVolQuote.link.value() * Math.Sqrt(T_)));
                double volga25Put_Analytical = vega25Put_Analytical * d125Put * (d125Put - atmVolQuote.link.value() * Math.Sqrt(T_)) / atmVolQuote.link.value();


                //BS vega
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vega);
                doubleBarrierOption.recalculate();
                double vegaBarBS = (doubleBarrierOption.NPV() - priceBS) / sigmaShift_vega;
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() - sigmaShift_vega);//setback

                //BS volga

                //vegaBar2
                //base NPV
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_volga);
                doubleBarrierOption.recalculate();
                double priceBS2 = doubleBarrierOption.NPV();

                //shifted npv
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vega);
                doubleBarrierOption.recalculate();
                double vegaBarBS2 = (doubleBarrierOption.NPV() - priceBS2) / sigmaShift_vega;
                double volgaBarBS = (vegaBarBS2 - vegaBarBS) / sigmaShift_volga;
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value()
                                                                  - sigmaShift_volga
                                                                  - sigmaShift_vega);                        //setback

                //BS Delta
                //base delta
                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//shift forth
                doubleBarrierOption.recalculate();
                double priceBS_delta1 = doubleBarrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() - 2 * spotShift_delta);//shift back
                doubleBarrierOption.recalculate();
                double priceBS_delta2 = doubleBarrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//set back
                double deltaBar1 = (priceBS_delta1 - priceBS_delta2) / (2.0 * spotShift_delta);

                //shifted vanna
                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() + sigmaShift_vanna); //shift sigma
                //shifted delta
                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);          //shift forth
                doubleBarrierOption.recalculate();
                priceBS_delta1 = doubleBarrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() - 2 * spotShift_delta);//shift back
                doubleBarrierOption.recalculate();
                priceBS_delta2 = doubleBarrierOption.NPV();

                ((SimpleQuote)x0Quote.currentLink()).setValue(x0Quote.link.value() + spotShift_delta);//set back
                double deltaBar2 = (priceBS_delta1 - priceBS_delta2) / (2.0 * spotShift_delta);

                double vannaBarBS = (deltaBar2 - deltaBar1) / sigmaShift_vanna;

                ((SimpleQuote)atmVolQuote.currentLink()).setValue(atmVolQuote.link.value() - sigmaShift_vanna);//set back

                //Matrix
                Matrix A = new Matrix(3, 3, 0.0);

                //analytical
                A[0, 0] = vegaAtm_Analytical;
                A[0, 1] = vega25Call_Analytical;
                A[0, 2] = vega25Put_Analytical;
                A[1, 0] = vannaAtm_Analytical;
                A[1, 1] = vanna25Call_Analytical;
                A[1, 2] = vanna25Put_Analytical;
                A[2, 0] = volgaAtm_Analytical;
                A[2, 1] = volga25Call_Analytical;
                A[2, 2] = volga25Put_Analytical;

                Vector b = new Vector(3, 0.0);
                b[0] = vegaBarBS;
                b[1] = vannaBarBS;
                b[2] = volgaBarBS;
                Vector q = Matrix.inverse(A) * b;

                double H = arguments_.barrier_hi.GetValueOrDefault();
                double L = arguments_.barrier_lo.GetValueOrDefault();
                double theta_tilt_minus = ((domesticTS_.link.zeroRate(T_, Compounding.Continuous).value() -
                                            foreignTS_.link.zeroRate(T_, Compounding.Continuous).value()) /
                                           atmVol_.link.value() - atmVol_.link.value() / 2.0) * Math.Sqrt(T_);
                double h = 1.0 / atmVol_.link.value() * Math.Log(H / x0Quote.link.value()) / Math.Sqrt(T_);
                double l = 1.0 / atmVol_.link.value() * Math.Log(L / x0Quote.link.value()) / Math.Sqrt(T_);
                CumulativeNormalDistribution cnd = new CumulativeNormalDistribution();

                double doubleNoTouch = 0.0;
                for (int j = -series_; j < series_; j++)
                {
                    double e_minus = 2 * j * (h - l) - theta_tilt_minus;
                    doubleNoTouch += Math.Exp(-2.0 * j * theta_tilt_minus * (h - l)) * (cnd.value(h + e_minus) - cnd.value(l + e_minus))
                                     - Math.Exp(-2.0 * j * theta_tilt_minus * (h - l) + 2.0 * theta_tilt_minus * h) *
                                     (cnd.value(h - 2.0 * h + e_minus) - cnd.value(l - 2.0 * h + e_minus));
                }

                double p_survival = doubleNoTouch;

                double lambda = p_survival;
                double adjust = q[0] * (priceAtmCallMkt - priceAtmCallBS)
                                + q[1] * (price25CallMkt - price25CallBS)
                                + q[2] * (price25PutMkt - price25PutBS);
                double outPrice = priceBS + lambda * adjust;//
                double inPrice;

                //adapt Vanilla delta
                if (adaptVanDelta_ == true)
                {
                    outPrice += lambda * (bsPriceWithSmile_ - vanillaOption);
                    //capfloored by (0, vanilla)
                    outPrice = Math.Max(0.0, Math.Min(bsPriceWithSmile_, outPrice));
                    inPrice  = bsPriceWithSmile_ - outPrice;
                }
                else
                {
                    //capfloored by (0, vanilla)
                    outPrice = Math.Max(0.0, Math.Min(vanillaOption, outPrice));
                    inPrice  = vanillaOption - outPrice;
                }

                if (arguments_.barrierType == DoubleBarrier.Type.KnockOut)
                {
                    results_.value = outPrice;
                }
                else
                {
                    results_.value = inPrice;
                }

                results_.additionalResults["VanillaPrice"]    = vanillaOption;
                results_.additionalResults["BarrierInPrice"]  = inPrice;
                results_.additionalResults["BarrierOutPrice"] = outPrice;
                results_.additionalResults["lambda"]          = lambda;
            }
        }