Example #1
0
 public OISSpreadRepoGenerator(double onRate, string market, DateTime settle, DiscountCurve oisCurve) : base(onRate, market, settle)
 {
     this.oisCurve = oisCurve;
     country = (BondAnalytics.Country)Enum.Parse(typeof(BondAnalytics.Country), market);
     var startdate = CarbonModel.RollDate(settle, 1, DateUnit.Bd, BusinessDayConvention.Following, Calendar.Calendar.OTHolidayCode(country));
     DateTime[] discDfDates = oisCurve.AsTuples().Select(x => x.Item1).ToArray();
     double[] discDfs = oisCurve.AsTuples().Select(x => x.Item2).ToArray();
     repoShift = onRate - BondAnalytics.CalcMMS(startdate, startdate, BondAnalytics.DayCountType.I30360, 12, 12, discDfDates, discDfs, discDfDates, discDfs,
                                 null, null, null, null, null, null, DateTime.MinValue, 0) * 10000;
 }
 public USD3mLiborOISDCurveBuilder(DateTime valueDate, SwapCurveParameters_fc parameters, DiscountCurve discountCurve)
     : base(valueDate, parameters)
 {
     mDiscountCurve = discountCurve;
 }
Example #3
0
        public static double CalcMeasure(CalcMeasure Measure, double price, BondAnalytics.Country eCountry,
            //DateTime asof,
            DateTime settle, DiscountCurve discCurve, DiscountCurve fcstCurve, DateTime effectiveDate, DateTime maturity, DateTime firstCpnDate, double coupon, long bondCpnFreq, bool bOIS, BondAnalytics.DayCountType dct, long swapFixedFreq, long swapFloatFreq, List<DateTime> hols)
            //----------------------------------------------------------------------------------------
        {
            double output = double.NaN;
            switch (Measure)
            {
                case Analytics.CalcMeasure.Price:
                {
                    output = price;
                    break;
                }
                case Analytics.CalcMeasure.Yield:
                {
                    output = 10000.0*BondAnalytics.SolveYield(eCountry, settle, price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq)[0];
                    break;
                }
                case Analytics.CalcMeasure.TrueSpread:
                {
                    DateTime[] dfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                    double[] dfs = (bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                    //  Check. Sometimes (holidays) the first date on the curve can be repeated, which will cause an exception in the pricer.
                    if (dfDates[0] == dfDates[1])
                    {
                        dfDates = dfDates.GetSubArray(1, dfDates.GetLength(0)).ToArray();

                        dfs = dfs.GetSubArray(1, dfs.GetLength(0)).ToArray();
                    }
                    output = -10000.0*BondAnalytics.SolveZSpread(eCountry, settle, price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq, dfDates, dfs, hols);

                    break;
                }
                case Analytics.CalcMeasure.MMS:
                {
                    DateTime[] discDfDates = discCurve.AsTuples().Select(x => x.Item1).ToArray();
                    DateTime[] fcstDfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                    double[] discDfs = discCurve.AsTuples().Select(x => x.Item2).ToArray();
                    double[] fcstDfs = (bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                    double mms = BondAnalytics.CalcMMS(settle, maturity, dct, swapFixedFreq, swapFloatFreq, discDfDates, discDfs, fcstDfDates, fcstDfs, hols, null, null, null, null, null, firstCpnDate, (bOIS ? 5 : 0));
                    output = 10000.0*mms;

                    break;
                }
                case Analytics.CalcMeasure.Spread:
                {
                    DateTime[] discDfDates = discCurve.AsTuples().Select(x => x.Item1).ToArray();
                    DateTime[] fcstDfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                    double[] discDfs = discCurve.AsTuples().Select(x => x.Item2).ToArray();
                    double[] fcstDfs = (bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                    double mms = BondAnalytics.CalcMMS(settle, maturity, dct, swapFixedFreq, swapFloatFreq, discDfDates, discDfs, fcstDfDates, fcstDfs, hols, null, null, null, null, null, firstCpnDate, (bOIS ? 5 : 0));
                    double yield = BondAnalytics.SolveYield(eCountry, settle, price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq)[0];
                    output = 10000.0*(mms - yield);


                    break;
                }
            }
            return output;
        }
        public static IReadOnlyDictionary<DateTime, DiscountCurve> BulkGetHistoricEodDiscountCurvesFromCarbon(ICarbonClient client,
            List<DateTime> settleDates, string ccy, bool bOis)
        {
            var inputDateKind = settleDates.FirstOrDefault().Kind;
            var dict = new ConcurrentDictionary<DateTime, DiscountCurve>();
            var dates = new List<DateTime>();
            foreach (var settleDate in settleDates)
            {
                DiscountCurve data;
                var key = GetKeyForDiscountCurveCache(settleDate, ccy, bOis);

                if (DicountCurveDataCache.TryGetValue(key, out data))
                {
                    dict[settleDate] = data;
                }
                else if (settleDate <= DateTime.Today)
                {
                    dates.Add(settleDate);
                }
            }

            if (dates.Count == 0) return dict.ToDictionary(kvp => kvp.Key, kvp => kvp.Value);

            var curveName = GetCurveName(ccy, bOis);
            if (string.IsNullOrEmpty(curveName)) return new Dictionary<DateTime, DiscountCurve>();

            try
            {
                var start = dates.Min();
                var end = dates.Max();

                if (dates.Count > 16)
                {
                    start = new DateTime(start.Year, start.Month, start.Day, 0, 0, 0, DateTimeKind.Utc);
                    end = new DateTime(end.Year, end.Month, end.Day, 0, 0, 0, DateTimeKind.Utc);
                    var datas = client.GetTimeSeriesData(curveName.ToUpperInvariant(), "interestcurves-ot", start, end, "dfs");
                    if (datas != null)
                    {
                        Parallel.ForEach(datas, messagePackObject =>
                        {
                            try
                            {
                                var curve = messagePackObject.Value.ConvertMessagePackObjectToDiscountFactors();
                                if (curve == null) return;
                                var dicountCurve = new DiscountCurve(new FinCADTable(curve, false));

                                var date = new DateTime(messagePackObject.Key.Year, messagePackObject.Key.Month, messagePackObject.Key.Day, 0, 0, 0, inputDateKind);
                                dict.TryAdd(date, dicountCurve);

                                var key = GetKeyForDiscountCurveCache(messagePackObject.Key, ccy, bOis);
                                DicountCurveDataCache.TryAdd(key, dicountCurve);
                            }
                            catch (Exception ex)
                            {
                                Log.ErrorFormat("Failed to convert curve {0} : {1}", curveName, ex);
                            }
                        });
                    }
                }
                else
                {
                    Parallel.ForEach(dates, date =>
                    {
                        try
                        {
                            var curve = GetHistoricEodDiscountCurveFromCarbon(client, date, ccy, bOis);
                            if (curve == null) return;

                            dict.TryAdd(date, curve);
                            var key = GetKeyForDiscountCurveCache(date, ccy, bOis);
                            DicountCurveDataCache.TryAdd(key, curve);
                        }
                        catch (Exception ex)
                        {
                            SLog.log.ErrorFormat("Failed to get curve {0} : {1}", curveName, ex);
                        }
                    });
                }
            }
            catch (Exception ex)
            {
                SLog.log.ErrorFormat("Failed to get curve {0} : {1}", curveName, ex);
            }

            return dict.ToDictionary(kvp => kvp.Key, kvp => kvp.Value);
        }
 protected DiscountCurve InternalBuildUSD3mLiborOISDCurve(DiscountCurve discountCurve, string marketSnapCode_, string quotesourceCode_, CarbonClient carbonClient_, string futfixingsMarketSnapCode_ = null)
 {
   var p = new SwapCurveParameters_fc
   {
     Index = "US0003M Index",
     Currency = "USD",
     UseFutures = true,
     MaxNumFutures = 10,
     FuturesIMMOnly = true,
     FuturesMinTenor = Tenor.BusinessDays(3),
     FuturesMaxTenor = Tenor.Years(3),
     MarketSnapCode = marketSnapCode_,
     QuoteSource = quotesourceCode_,
     MarketSnapCode_Fix_MM_Fut = futfixingsMarketSnapCode_,
     SwapTenors =
       new List<string>
       {
         "3y",
         "4y",
         "5y",
         "6y",
         "7y",
         "8y",
         "9y",
         "10y",
         "12y",
         "15y",
         "20y",
         "25y",
         "30y",
         "40y",
         "50y",
         "60y"
       },
     MoneyMarketIndices = new List<string> { "US0003M Index" },
     BootstrapSettings = "Linear",
     SmoothingSettings = "None",
     CashConv = "CashUSD",
     FixedLegConv = "SwapUSDSemi30360",
     FloatingLegConv = "SwapUSD3mFloating",
     FloatingIndex = "LiborUSD3m",
     FuturesRateStartOffset = Tenor.BusinessDays(2)
   };
   if (ValueDate <= new DateTime(2009, 8, 5))
   {
     p.MaxNumFutures = 7;
     p.SwapTenors = new List<string> { "2y", "3y", "4y", "5y", "6y", "7y", "8y", "9y", "10y", "12y", "15y", "20y", "25y", "30y", "40y", "50y", "60y" };
   }
   return CallCurveCalculator(new USD3mLiborOISDCurveBuilder(ValueDate, p, discountCurve), KnownCurve.USD3mLiborOISD,
     marketSnapCode_, quotesourceCode_, carbonClient_);
 }
 protected DiscountCurve InternalBuildGBP6mLiborOISDCurve(DiscountCurve discountCurve, string marketSnapCode_, string quotesourceCode_, CarbonClient carbonClient_, string futfixingsMarketSnapCode_ = null)
 {
   return CallCurveCalculator(new GBP6mLiborOISDCurveBuilder(ValueDate, new SwapCurveParameters_fc
   {
     Index = "BP0006M Index",
     Currency = "GBP",
     UseFutures = false,
     MarketSnapCode = marketSnapCode_,
     MarketSnapCode_Fix_MM_Fut = futfixingsMarketSnapCode_,
     QuoteSource = quotesourceCode_,
     SwapTenors = new List<string> { "1y", "2y", "3y", "4y", "5y", "6y", "7y", "8y", "9y", "10y", "12y", "15y", "20y", "25y", "30y", "40y", "50y", "60y" },
     MoneyMarketIndices = new List<string> { "BP00O/N Index", "BP0001M Index", "BP0002M Index", "BP0003M Index" },
     BootstrapSettings = "Linear",
     SmoothingSettings = "Spline",
     FixedLegConv = "SwapGBPSemiFixed",
     FloatingLegConv = "SwapGBP6mFloating",
     FloatingIndex = "LiborGBP6m"
   }, discountCurve), KnownCurve.GBP6mLiborOISD, marketSnapCode_, quotesourceCode_, carbonClient_);
 }
Example #7
0
        //----------------------------------------------------------------------------------------
        public static double calcMeasure(   string Measure, 
                                            double price, 
                                            BondAnalytics.Country eCountry,
                                            DateTime asof,
                                            DateTime settle,
                                            DiscountCurve discCurve, 
                                            DiscountCurve fcstCurve,
                                            BondStatic bondStatic,
                                            SpreadTimeSeriesConfigs configs,
                                            List<DateTime> hols)
         //----------------------------------------------------------------------------------------
        {

            DateTime effectiveDate  = DateTime.FromOADate( bondStatic.EffectiveDate);
            DateTime maturity       = DateTime.FromOADate( bondStatic.Maturity);
            DateTime firstCpnDate   = DateTime.FromOADate(bondStatic.FirstCoupon);
            double coupon           = bondStatic.Coupon;


            long bondCpnFreq                = configs.bndCouponFreq;
            bool bOIS                       = !configs.bForecastCurve;
            BondAnalytics.DayCountType dct  = configs.dct;
            long fixedFreq                  = configs.swpfixfreq;
            long floatFreq                  = configs.swpfloatfreq; 



            double output = double.NaN;
            switch (Measure)
            {
                case "Price":
                    {
                        output= price;
                        break;
                    }
                case "Yield":
                    {
                        output= 10000.0 * BondAnalytics.SolveYield(eCountry, settle, price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq)[0];
                        break;
                    }
                case "TrueSpread":
                    {
                            DateTime[] dfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                            double[] dfs = (bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                            //  Check. Sometimes (holidays) the first date on the curve can be repeated, which will cause an exception in the pricer.
                            if (dfDates[0] == dfDates[1])
                            {
                                dfDates = dfDates.GetSubArray(1, dfDates.GetLength(0)).ToArray();
                          
                                dfs = dfs.GetSubArray(1, dfs.GetLength(0)).ToArray();
                            }
                            output= -10000.0 * BondAnalytics.SolveZSpread(eCountry, settle, price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq, dfDates, dfs,hols );

                        break;
                    }
                case "MMS":
                {
                    DateTime[] discDfDates = discCurve.AsTuples().Select(x => x.Item1).ToArray();
                    DateTime[] fcstDfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                    double[] discDfs = discCurve.AsTuples().Select(x => x.Item2).ToArray();
                    double[] fcstDfs =(bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                    double mms = BondAnalytics.CalcMMS(settle, maturity, dct, fixedFreq, floatFreq, discDfDates, discDfs, fcstDfDates, fcstDfs, hols, null, null, null, null, null, firstCpnDate, (bOIS ? 5 : 0));
                    output= 10000.0 * mms;
                    
                    break;
                    }
                case "Spread":
                    {

                        DateTime[] discDfDates = discCurve.AsTuples().Select(x => x.Item1).ToArray();
                        DateTime[] fcstDfDates = (bOIS ? discCurve.AsTuples().Select(x => x.Item1).ToArray() : fcstCurve.AsTuples().Select(x => x.Item1).ToArray());
                        double[] discDfs = discCurve.AsTuples().Select(x => x.Item2).ToArray();
                        double[] fcstDfs = (bOIS ? discCurve.AsTuples().Select(x => x.Item2).ToArray() : fcstCurve.AsTuples().Select(x => x.Item2).ToArray());

                        double mms = BondAnalytics.CalcMMS(settle, maturity, dct, fixedFreq, floatFreq, discDfDates, discDfs, fcstDfDates, fcstDfs, hols, null, null, null, null, null, firstCpnDate, (bOIS ? 5 : 0));
                        double yield = BondAnalytics.SolveYield(eCountry,settle ,price, effectiveDate, firstCpnDate, maturity, coupon, bondCpnFreq)[0];
                        output= 10000.0 * (mms - yield);


                        break;
                    }
            }
            return output;
        }