//-------------------------------------------------------------------------
        /// <summary>
        /// Calculates the present value sensitivity to the SABR model parameters of the swaption product.
        /// <para>
        /// The sensitivity of the present value to the SABR model parameters, alpha, beta, rho and nu.
        ///
        /// </para>
        /// </summary>
        /// <param name="swaption">  the swaption product </param>
        /// <param name="ratesProvider">  the rates provider </param>
        /// <param name="swaptionVolatilities">  the volatilities </param>
        /// <returns> the point sensitivity to the SABR model parameters </returns>
        public virtual PointSensitivityBuilder presentValueSensitivityModelParamsSabr(ResolvedSwaption swaption, RatesProvider ratesProvider, SabrSwaptionVolatilities swaptionVolatilities)
        {
            validate(swaption, ratesProvider, swaptionVolatilities);
            double          expiry     = swaptionVolatilities.relativeTime(swaption.Expiry);
            ResolvedSwap    underlying = swaption.Underlying;
            ResolvedSwapLeg fixedLeg   = this.fixedLeg(underlying);
            double          tenor      = swaptionVolatilities.tenor(fixedLeg.StartDate, fixedLeg.EndDate);
            double          shift      = swaptionVolatilities.shift(expiry, tenor);
            double          strike     = calculateStrike(fixedLeg);

            if (expiry < 0d)
            {     // Option has expired already
                return(PointSensitivityBuilder.none());
            }
            double      forward    = SwapPricer.parRate(underlying, ratesProvider);
            double      volatility = swaptionVolatilities.volatility(expiry, tenor, strike, forward);
            double      numeraire  = calculateNumeraire(swaption, fixedLeg, forward, ratesProvider);
            DoubleArray derivative = swaptionVolatilities.volatilityAdjoint(expiry, tenor, strike, forward).Derivatives;
            double      vega       = numeraire * swaption.LongShort.sign() * BlackFormulaRepository.vega(forward + shift, strike + shift, expiry, volatility);
            // sensitivities
            Currency ccy = fixedLeg.Currency;
            SwaptionVolatilitiesName name = swaptionVolatilities.Name;

            return(PointSensitivityBuilder.of(SwaptionSabrSensitivity.of(name, expiry, tenor, ALPHA, ccy, vega * derivative.get(2)), SwaptionSabrSensitivity.of(name, expiry, tenor, BETA, ccy, vega * derivative.get(3)), SwaptionSabrSensitivity.of(name, expiry, tenor, RHO, ccy, vega * derivative.get(4)), SwaptionSabrSensitivity.of(name, expiry, tenor, NU, ccy, vega * derivative.get(5))));
        }