Esempio n. 1
0
        public double PV_SmallSteps(HazzardCurve hazzardCurve, IIrCurve discountCurve, double recoveryRate, bool payAccruedOnDefault = true)
        {
            var nodeDates = DatePeriodType.M.GenerateDateSchedule(hazzardCurve.OriginDate, FinalSensitivityDate);

            //contingent leg
            var pv = 0.0;

            for (var i = 1; i < nodeDates.Length; i++)
            {
                pv += discountCurve.GetDf(discountCurve.BuildDate, nodeDates[i])
                      * hazzardCurve.GetDefaultProbability(nodeDates[i - 1], nodeDates[i]);
            }

            pv *= (1.0 - recoveryRate) * Notional;

            //fixed leg
            foreach (var f in FixedSchedule.Flows)
            {
                pv -= f.Notional * f.YearFraction * Spread * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate) * hazzardCurve.GetSurvivalProbability(f.SettleDate);
                if (payAccruedOnDefault)
                {
                    pv -= 0.5 * f.Notional * f.YearFraction * Spread
                          * hazzardCurve.GetDefaultProbability(f.AccrualPeriodStart, f.AccrualPeriodEnd)
                          * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate);
                }
            }


            return(pv);
        }
Esempio n. 2
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        public static double CVA(DateTime originDate, DateTime[] EPEDates, double[] EPEExposures, HazzardCurve hazzardCurve, IIrCurve discountCurve, double LGD)
        {
            if (EPEDates.Length != EPEExposures.Length)
            {
                throw new Exception("Number of EPE dates and EPE values must be equal");
            }

            var lastDate = originDate;
            var cva      = 0.0;

            for (var i = 0; i < EPEDates.Length; i++)
            {
                if (EPEDates[i] < originDate)
                {
                    continue;
                }

                var pDefault = hazzardCurve.GetDefaultProbability(lastDate, EPEDates[i]);
                var df       = discountCurve.GetDf(originDate, EPEDates[i]);
                cva += EPEExposures[i] * pDefault * df * LGD;

                lastDate = EPEDates[i];
            }

            return(-cva);
        }
Esempio n. 3
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        public double PV_LinearApprox(HazzardCurve hazzardCurve, IIrCurve discountCurve, double recoveryRate, bool payAccruedOnDefault = true)
        {
            var nodeDates = DatePeriodType.M.GenerateDateSchedule(hazzardCurve.OriginDate, FinalSensitivityDate);
            var ts        = nodeDates.Select(d => discountCurve.BuildDate.CalculateYearFraction(d, DayCountBasis.ACT365F)).ToArray();

            var integrandD = new Func <DateTime, double> (d => discountCurve.GetDf(discountCurve.BuildDate, d) * -hazzardCurve.GetSurvivalProbabilitySlope(d));
            var integrandT = new Func <double, double>(t => integrandD(OriginDate.AddYearFraction(t, DayCountBasis.ACT365F)));

            //contingent leg
            var pv = (1.0 - recoveryRate) * Notional * Integration.SimpsonsRuleExtended(integrandT, 0, ts.Last(), 100);

            //fixed leg
            foreach (var f in FixedSchedule.Flows)
            {
                pv -= f.Notional * f.YearFraction * Spread * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate) * hazzardCurve.GetSurvivalProbability(f.SettleDate);
                if (payAccruedOnDefault)
                {
                    pv -= 0.5 * f.Notional * f.YearFraction * Spread
                          * hazzardCurve.GetDefaultProbability(f.AccrualPeriodStart, f.AccrualPeriodEnd)
                          * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate);
                }
            }

            return(pv);
        }
Esempio n. 4
0
        //http://www.bnikolic.co.uk/cds/cdsvaluation.html
        //var contingentLeg = (1.0 - recoveryRate) *
        public double PV_PiecewiseFlat(HazzardCurve hazzardCurve, IIrCurve discountCurve, double recoveryRate, bool payAccruedOnDefault = true)
        {
            var nodeDates = FixedSchedule.Flows.Select(f => f.AccrualPeriodEnd).ToArray();
            var pv        = 0.0;

            //contingent leg
            var d = hazzardCurve.OriginDate;

            foreach (var nd in nodeDates)
            {
                var deltaT = d.CalculateYearFraction(nd, hazzardCurve.Basis);
                var s      = hazzardCurve.GetSurvivalProbability(d);
                var dd     = discountCurve.GetDf(discountCurve.BuildDate, d);
                var lambda = System.Math.Log(s / hazzardCurve.GetSurvivalProbability(nd)) / deltaT;
                var f      = System.Math.Log(dd / discountCurve.GetDf(discountCurve.BuildDate, nd)) / deltaT;
                var term1  = (lambda == 0 && f == 0) ? 1.0 : lambda / (lambda + f);
                pv += term1 * (1.0 - System.Math.Exp(-deltaT * (lambda + f))) * s * dd;
                d   = nd;
            }

            pv *= (1.0 - recoveryRate) * Notional;

            //fixed leg
            foreach (var f in FixedSchedule.Flows)
            {
                pv -= f.Notional * f.YearFraction * Spread * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate) * hazzardCurve.GetSurvivalProbability(f.SettleDate);
                if (payAccruedOnDefault)
                {
                    pv -= 0.5 * f.Notional * f.YearFraction * Spread
                          * hazzardCurve.GetDefaultProbability(f.AccrualPeriodStart, f.AccrualPeriodEnd)
                          * discountCurve.GetDf(discountCurve.BuildDate, f.SettleDate);
                }
            }

            return(pv);
        }