Exemplo n.º 1
0
        public void testCachedValue()
        {
            //"Testing swaption value against cached value...");

            CommonVars vars = new CommonVars();

            vars.today = new Date(13, 3, 2002);
            vars.settlement = new Date(15, 3, 2002);
            Settings.setEvaluationDate( vars.today);
            vars.termStructure.linkTo(Utilities.flatRate(vars.settlement, 0.05, new Actual365Fixed()));
            Date exerciseDate = vars.calendar.advance(vars.settlement, new Period(5,TimeUnit.Years));
            Date startDate = vars.calendar.advance(exerciseDate,
                                                   vars.settlementDays,TimeUnit.Days);
            VanillaSwap swap =
                new MakeVanillaSwap(new Period(10,TimeUnit.Years), vars.index, 0.06)
                .withEffectiveDate(startDate);

            Swaption swaption =
                vars.makeSwaption(swap, exerciseDate, 0.20);
            //#if QL_USE_INDEXED_COUPON
                double cachedNPV = 0.036418158579;
            //#else
            //    double cachedNPV = 0.036421429684;
            //#endif

            // FLOATING_POINT_EXCEPTION
            if (Math.Abs(swaption.NPV()-cachedNPV) > 1.0e-12)
                Assert.Fail ("failed to reproduce cached swaption value:\n" +
                            //QL_FIXED + std::setprecision(12) +
                            "\ncalculated: " + swaption.NPV() +
                            "\nexpected:   " + cachedNPV);
        }
      public void testFlatInterpolationLeft()
      {
         // Testing flat interpolation before the first spreaded date...

         CommonVars vars = new CommonVars();

         List<Handle<Quote>> spreads = new List<Handle<Quote>>();
         SimpleQuote spread1 = new SimpleQuote(0.02);
         SimpleQuote spread2 = new SimpleQuote(0.03);
         spreads.Add(new Handle<Quote>(spread1));
         spreads.Add(new Handle<Quote>(spread2));

         List<Date> spreadDates = new List<Date>();
         spreadDates.Add(vars.calendar.advance(vars.today, 8, TimeUnit.Months));
         spreadDates.Add(vars.calendar.advance(vars.today, 15, TimeUnit.Months));

         Date interpolationDate = vars.calendar.advance(vars.today, 6, TimeUnit.Months);

         ZeroYieldStructure spreadedTermStructure =
             new PiecewiseZeroSpreadedTermStructure(
                                new Handle<YieldTermStructure>(vars.termStructure),
                                spreads, spreadDates);

         double t = vars.dayCount.yearFraction(vars.today, interpolationDate);
         double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();

         double tolerance = 1e-9;
         double expectedRate = vars.termStructure.zeroRate(t, vars.compounding).value() + spread1.value();

         if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            Assert.Fail("unable to reproduce interpolated rate\n"
                        + "    calculated: " + interpolatedZeroRate + "\n"
                        + "    expected: " + expectedRate);
      }
Exemplo n.º 3
0
        public void testFairRate()
        {
            //("Testing vanilla-swap calculation of fair fixed rate...");

             CommonVars vars = new CommonVars();

             int[] lengths = new int[] { 1, 2, 5, 10, 20 };
             double[] spreads = new double[] { -0.001, -0.01, 0.0, 0.01, 0.001 };

             for (int i = 0; i < lengths.Length; i++)
             {
            for (int j = 0; j < spreads.Length; j++)
            {

               VanillaSwap swap = vars.makeSwap(lengths[i], 0.0, spreads[j]);
               swap = vars.makeSwap(lengths[i], swap.fairRate(), spreads[j]);
               if (Math.Abs(swap.NPV()) > 1.0e-10)
               {
                  Assert.Fail("recalculating with implied rate:\n"
                              + "    length: " + lengths[i] + " years\n"
                              + "    floating spread: "
                              + spreads[j] + "\n"
                              + "    swap value: " + swap.NPV());
               }
            }
             }
        }
Exemplo n.º 4
0
        public void testCachedValue()
        {
            // Testing Black yoy inflation cap/floor price  against cached values...
            CommonVars vars = new CommonVars();

            int whichPricer = 0; // black

            double K = 0.0295; // one centi-point is fair rate error i.e. < 1 cp
            int j = 2;
            List<CashFlow> leg = vars.makeYoYLeg(vars.evaluationDate,j);
            Instrument cap = vars.makeYoYCapFloor(CapFloorType.Cap,leg, K, 0.01, whichPricer);

            Instrument floor = vars.makeYoYCapFloor(CapFloorType.Floor,leg, K, 0.01, whichPricer);

            // close to atm prices
            double cachedCapNPVblack   = 219.452;
            double cachedFloorNPVblack =  314.641;
            // N.B. notionals are 10e6.
            Assert.IsTrue(Math.Abs(cap.NPV()-cachedCapNPVblack)<0.02,"yoy cap cached NPV wrong "
                                    +cap.NPV()+" should be "+cachedCapNPVblack+" Black pricer"
                                    +" diff was "+(Math.Abs(cap.NPV()-cachedCapNPVblack)));
            Assert.IsTrue(Math.Abs(floor.NPV()-cachedFloorNPVblack)<0.02,"yoy floor cached NPV wrong "
                                    +floor.NPV()+" should be "+cachedFloorNPVblack+" Black pricer"
                                    +" diff was "+(Math.Abs(floor.NPV()-cachedFloorNPVblack)));

            whichPricer = 1; // dd

            cap = vars.makeYoYCapFloor(CapFloorType.Cap,leg, K, 0.01, whichPricer);
            floor = vars.makeYoYCapFloor(CapFloorType.Floor,leg, K, 0.01, whichPricer);

            // close to atm prices
            double cachedCapNPVdd   = 9114.61;
            double cachedFloorNPVdd =  9209.8;
            // N.B. notionals are 10e6.
            Assert.IsTrue(Math.Abs(cap.NPV()-cachedCapNPVdd)<0.22,"yoy cap cached NPV wrong "
                                    +cap.NPV()+" should be "+cachedCapNPVdd+" dd Black pricer"
                                    +" diff was "+(Math.Abs(cap.NPV()-cachedCapNPVdd)));
            Assert.IsTrue(Math.Abs(floor.NPV()-cachedFloorNPVdd)<0.22,"yoy floor cached NPV wrong "
                                    +floor.NPV()+" should be "+cachedFloorNPVdd+" dd Black pricer"
                                    +" diff was "+(Math.Abs(floor.NPV()-cachedFloorNPVdd)));

            whichPricer = 2; // bachelier

            cap = vars.makeYoYCapFloor(CapFloorType.Cap,leg, K, 0.01, whichPricer);
            floor = vars.makeYoYCapFloor(CapFloorType.Floor,leg, K, 0.01, whichPricer);

            // close to atm prices
            double cachedCapNPVbac   = 8852.4;
            double cachedFloorNPVbac =  8947.59;
            // N.B. notionals are 10e6.
            Assert.IsTrue(Math.Abs(cap.NPV()-cachedCapNPVbac)<0.22,"yoy cap cached NPV wrong "
                                    +cap.NPV()+" should be "+cachedCapNPVbac+" bac Black pricer"
                                    +" diff was "+(Math.Abs(cap.NPV()-cachedCapNPVbac)));
            Assert.IsTrue(Math.Abs(floor.NPV()-cachedFloorNPVbac)<0.22,"yoy floor cached NPV wrong "
                                    +floor.NPV()+" should be "+cachedFloorNPVbac+" bac Black pricer"
                                    +" diff was "+(Math.Abs(floor.NPV()-cachedFloorNPVbac)));

            // remove circular refernce
            vars.hy.linkTo(new YoYInflationTermStructure());
        }
Exemplo n.º 5
0
        public void testATMRate()
        {
            CommonVars vars = new CommonVars();

            int[] lengths = { 1, 2, 3, 5, 7, 10, 15, 20 };
            double[] strikes = { 0.0, 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] vols = { 0.01, 0.05, 0.10, 0.15, 0.20 };

            Date startDate = vars.termStructure.link.referenceDate();

            for (int i = 0; i < lengths.Length; i++) {
                List<CashFlow> leg = vars.makeLeg(startDate, lengths[i]);
                Date maturity = vars.calendar.advance(startDate, lengths[i], TimeUnit.Years, vars.convention);
                Schedule schedule = new Schedule(startDate, maturity,
                                                 new Period(vars.frequency), vars.calendar,
                                                 vars.convention, vars.convention,
                                                 DateGeneration.Rule.Forward, false);

                for (int j = 0; j < strikes.Length; j++) {
                    for (int k = 0; k < vols.Length; k++) {

                        CapFloor cap = vars.makeCapFloor(CapFloorType.Cap, leg, strikes[j], vols[k]);
                        CapFloor floor = vars.makeCapFloor(CapFloorType.Floor, leg, strikes[j], vols[k]);
                        double capATMRate = cap.atmRate(vars.termStructure);
                        double floorATMRate = floor.atmRate(vars.termStructure);

                        if (!checkAbsError(floorATMRate, capATMRate, 1.0e-10))
                            Assert.Fail(
                              "Cap ATM Rate and floor ATM Rate should be equal :\n"
                              + "   length:        " + lengths[i] + " years\n"
                              + "   volatility:    " + vols[k] + "\n"
                              + "   strike:        " + strikes[j] + "\n"
                              + "   cap ATM rate:  " + capATMRate + "\n"
                              + "   floor ATM rate:" + floorATMRate + "\n"
                              + "   relative Error:"
                              + Utilities.relativeError(capATMRate, floorATMRate, capATMRate) * 100 + "%");
                        VanillaSwap swap = new VanillaSwap(VanillaSwap.Type.Payer, vars.nominals[0],
                                                           schedule, floorATMRate,
                                                           vars.index.dayCounter(),
                                                           schedule, vars.index, 0.0,
                                                           vars.index.dayCounter());
                        swap.setPricingEngine((IPricingEngine)(
                                               new DiscountingSwapEngine(vars.termStructure)));
                        double swapNPV = swap.NPV();
                        if (!checkAbsError(swapNPV, 0, 1.0e-10))
                            Assert.Fail(
                              "the NPV of a Swap struck at ATM rate "
                              + "should be equal to 0:\n"
                              + "   length:        " + lengths[i] + " years\n"
                              + "   volatility:    " + vols[k] + "\n"
                              + "   ATM rate:      " + floorATMRate + "\n"
                              + "   swap NPV:      " + swapNPV);

                    }
                }
            }
        }
        public void testLinearZeroConsistency()
        {
            // "Testing consistency of piecewise-linear zero-yield curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ZeroYield, Linear, IterativeBootstrapForYield>(vars);
            testBMACurveConsistency <ZeroYield, Linear, IterativeBootstrapForYield>(vars);
        }
        public void testLinearDiscountConsistency()
        {
            // "Testing consistency of piecewise-linear discount curve..."

            CommonVars vars = new CommonVars();

            testCurveConsistency <Discount, Linear, IterativeBootstrapForYield>(vars);
            testBMACurveConsistency <Discount, Linear, IterativeBootstrapForYield>(vars);
        }
        public void testLocalBootstrapConsistency()
        {
            //"Testing consistency of local-bootstrap algorithm...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ForwardRate, ConvexMonotone, LocalBootstrapForYield>(vars, new ConvexMonotone(), 1.0e-7);
            testBMACurveConsistency <ForwardRate, ConvexMonotone, LocalBootstrapForYield>(vars, new ConvexMonotone(), 1.0e-9);
        }
        public void testConvexMonotoneForwardConsistency()
        {
            //"Testing consistency of convex monotone forward-rate curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ForwardRate, ConvexMonotone, IterativeBootstrapForYield>(vars);
            testBMACurveConsistency <ForwardRate, ConvexMonotone, IterativeBootstrapForYield>(vars);
        }
        public void testFlatForwardConsistency()
        {
            //"Testing consistency of piecewise-flat forward-rate curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ForwardRate, BackwardFlat, IterativeBootstrapForYield>(vars);
            testBMACurveConsistency <ForwardRate, BackwardFlat, IterativeBootstrapForYield>(vars);
        }
        public void testSwaptionVolMatrixCoherence()
        {
            // Set evaluation date
            Settings.Instance.setEvaluationDate(Date.Today);

            // Testing swaption volatility matrix
            CommonVars vars = new CommonVars();

            SwaptionVolatilityMatrix vol;
            string description;

            //floating reference date, floating market data
            description = "floating reference date, floating market data";
            vol         = new SwaptionVolatilityMatrix(vars.conventions.calendar,
                                                       vars.conventions.optionBdc,
                                                       vars.atm.tenors.options,
                                                       vars.atm.tenors.swaps,
                                                       vars.atm.volsHandle,
                                                       vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            //fixed reference date, floating market data
            description = "fixed reference date, floating market data";
            vol         = new SwaptionVolatilityMatrix(Settings.Instance.evaluationDate(),
                                                       vars.conventions.calendar,
                                                       vars.conventions.optionBdc,
                                                       vars.atm.tenors.options,
                                                       vars.atm.tenors.swaps,
                                                       vars.atm.volsHandle,
                                                       vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            // floating reference date, fixed market data
            description = "floating reference date, fixed market data";
            vol         = new SwaptionVolatilityMatrix(vars.conventions.calendar,
                                                       vars.conventions.optionBdc,
                                                       vars.atm.tenors.options,
                                                       vars.atm.tenors.swaps,
                                                       vars.atm.volsHandle,
                                                       vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            // fixed reference date, fixed market data
            description = "fixed reference date, fixed market data";
            vol         = new SwaptionVolatilityMatrix(Settings.Instance.evaluationDate(),
                                                       vars.conventions.calendar,
                                                       vars.conventions.optionBdc,
                                                       vars.atm.tenors.options,
                                                       vars.atm.tenors.swaps,
                                                       vars.atm.volsHandle,
                                                       vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);
        }
        public void testLinearForwardConsistency()
        {
            // "Testing consistency of piecewise-linear forward-rate curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ForwardRate, Linear, IterativeBootstrapForYield>(vars);
            testBMACurveConsistency <ForwardRate, Linear, IterativeBootstrapForYield>(vars);
        }
Exemplo n.º 13
0
        public void zciisconsistency()
        {
            CommonVars common = new CommonVars();

            ZeroCouponInflationSwap.Type ztype = ZeroCouponInflationSwap.Type.Payer;
            double   nominal   = 1000000.0;
            Date     startDate = new Date(common.evaluationDate);
            Date     endDate   = new Date(25, Month.November, 2059);
            Calendar cal       = new UnitedKingdom();
            BusinessDayConvention paymentConvention = BusinessDayConvention.ModifiedFollowing;
            DayCounter            dummyDC = null, dc = new ActualActual();
            Period observationLag = new Period(2, TimeUnit.Months);

            double quote          = 0.03714;
            ZeroCouponInflationSwap zciis = new ZeroCouponInflationSwap(ztype, nominal, startDate, endDate, cal,
                                                                        paymentConvention, dc, quote, common.ii, observationLag);

            // simple structure so simple pricing engine - most work done by index
            DiscountingSwapEngine dse = new DiscountingSwapEngine(common.nominalUK);

            zciis.setPricingEngine(dse);
            QAssert.IsTrue(Math.Abs(zciis.NPV()) < 1e-3, "zciis does not reprice to zero");

            List <Date> oneDate = new List <Date>();

            oneDate.Add(endDate);
            Schedule schOneDate = new Schedule(oneDate, cal, paymentConvention);

            CPISwap.Type stype = CPISwap.Type.Payer;
            double       inflationNominal = nominal;
            double       floatNominal = inflationNominal * Math.Pow(1.0 + quote, 50);
            bool         subtractInflationNominal = true;
            double       dummySpread = 0.0, dummyFixedRate = 0.0;
            int          fixingDays = 0;
            Date         baseDate   = startDate - observationLag;
            double       baseCPI    = common.ii.fixing(baseDate);

            IborIndex dummyFloatIndex = new IborIndex();

            CPISwap cS = new CPISwap(stype, floatNominal, subtractInflationNominal, dummySpread, dummyDC, schOneDate,
                                     paymentConvention, fixingDays, dummyFloatIndex,
                                     dummyFixedRate, baseCPI, dummyDC, schOneDate, paymentConvention, observationLag,
                                     common.ii, InterpolationType.AsIndex, inflationNominal);

            cS.setPricingEngine(dse);
            QAssert.IsTrue(Math.Abs(cS.NPV()) < 1e-3, "CPISwap as ZCIIS does not reprice to zero");

            for (int i = 0; i < 2; i++)
            {
                double cs = cS.legNPV(i).GetValueOrDefault();
                double z  = zciis.legNPV(i).GetValueOrDefault();
                QAssert.IsTrue(Math.Abs(cs - z) < 1e-3, "zciis leg does not equal CPISwap leg");
            }
            // remove circular refernce
            common.hcpi.linkTo(null);
        }
Exemplo n.º 14
0
        public void testFlatTermVolatilityStripping1()
        {
            // Testing forward/forward vol stripping from flat term vol
            // surface using OptionletStripper1 class...

            CommonVars vars = new CommonVars();

            Settings.setEvaluationDate(new Date(28, Month.October, 2013));

            vars.setFlatTermVolSurface();

            IborIndex iborIndex = new Euribor6M(vars.yieldTermStructure);

            OptionletStripper optionletStripper1 = new OptionletStripper1(vars.flatTermVolSurface,
                                                                          iborIndex, null, vars.accuracy);

            StrippedOptionletAdapter strippedOptionletAdapter = new StrippedOptionletAdapter(optionletStripper1);

            Handle <OptionletVolatilityStructure> vol = new Handle <OptionletVolatilityStructure>(strippedOptionletAdapter);

            vol.link.enableExtrapolation();

            BlackCapFloorEngine strippedVolEngine = new BlackCapFloorEngine(vars.yieldTermStructure, vol);

            CapFloor cap;

            for (int tenorIndex = 0; tenorIndex < vars.optionTenors.Count; ++tenorIndex)
            {
                for (int strikeIndex = 0; strikeIndex < vars.strikes.Count; ++strikeIndex)
                {
                    cap = new MakeCapFloor(CapFloorType.Cap, vars.optionTenors[tenorIndex], iborIndex,
                                           vars.strikes[strikeIndex], new Period(0, TimeUnit.Days))
                          .withPricingEngine(strippedVolEngine);

                    double priceFromStrippedVolatility = cap.NPV();

                    IPricingEngine blackCapFloorEngineConstantVolatility = new BlackCapFloorEngine(vars.yieldTermStructure,
                                                                                                   vars.termV[tenorIndex, strikeIndex]);

                    cap.setPricingEngine(blackCapFloorEngineConstantVolatility);
                    double priceFromConstantVolatility = cap.NPV();

                    double error = Math.Abs(priceFromStrippedVolatility - priceFromConstantVolatility);
                    if (error > vars.tolerance)
                    {
                        QAssert.Fail("\noption tenor:       " + vars.optionTenors[tenorIndex] +
                                     "\nstrike:             " + vars.strikes[strikeIndex] +
                                     "\nstripped vol price: " + priceFromStrippedVolatility +
                                     "\nconstant vol price: " + priceFromConstantVolatility +
                                     "\nerror:              " + error +
                                     "\ntolerance:          " + vars.tolerance);
                    }
                }
            }
        }
Exemplo n.º 15
0
        public void testVega()
        {
            CommonVars vars = new CommonVars();

            int[]          lengths = { 1, 2, 3, 4, 5, 6, 7, 10, 15, 20, 30 };
            double[]       vols    = { 0.01, 0.05, 0.10, 0.15, 0.20 };
            double[]       strikes = { 0.01, 0.02, 0.03, 0.04, 0.05, 0.06, 0.07, 0.08, 0.09 };
            CapFloorType[] types   = { CapFloorType.Cap, CapFloorType.Floor };

            Date   startDate = vars.termStructure.link.referenceDate();
            double shift     = 1e-8;
            double tolerance = 0.005;

            for (int i = 0; i < lengths.Length; i++)
            {
                for (int j = 0; j < vols.Length; j++)
                {
                    for (int k = 0; k < strikes.Length; k++)
                    {
                        for (int h = 0; h < types.Length; h++)
                        {
                            List <CashFlow> leg              = vars.makeLeg(startDate, lengths[i]);
                            CapFloor        capFloor         = vars.makeCapFloor(types[h], leg, strikes[k], vols[j]);
                            CapFloor        shiftedCapFloor2 = vars.makeCapFloor(types[h], leg, strikes[k], vols[j] + shift);
                            CapFloor        shiftedCapFloor1 = vars.makeCapFloor(types[h], leg, strikes[k], vols[j] - shift);

                            double value1 = shiftedCapFloor1.NPV();
                            double value2 = shiftedCapFloor2.NPV();

                            double numericalVega = (value2 - value1) / (2 * shift);


                            if (numericalVega > 1.0e-4)
                            {
                                double analyticalVega = (double)capFloor.result("vega");
                                double discrepancy    = Math.Abs(numericalVega - analyticalVega);
                                discrepancy /= numericalVega;
                                if (discrepancy > tolerance)
                                {
                                    QAssert.Fail(
                                        "failed to compute cap/floor vega:" +
                                        "\n   lengths:     " + new Period(lengths[j], TimeUnit.Years) +
                                        "\n   strike:      " + strikes[k] +
                                        "\n   types:       " + types[h] +
                                        "\n   calculated:  " + analyticalVega +
                                        "\n   expected:    " + numericalVega +
                                        "\n   discrepancy: " + discrepancy +
                                        "\n   tolerance:   " + tolerance);
                                }
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 16
0
        public void testSwaptionVolMatrixCoherence()
        {
            //"Testing swaption volatility matrix...");

            CommonVars vars = new CommonVars();

            SwaptionVolatilityMatrix vol;
            string description;

            //floating reference date, floating market data
            description = "floating reference date, floating market data";
            vol = new SwaptionVolatilityMatrix(vars.conventions.calendar,
                                                vars.conventions.optionBdc,
                                                vars.atm.tenors.options,
                                                vars.atm.tenors.swaps,
                                                vars.atm.volsHandle,
                                                vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            //fixed reference date, floating market data
            description = "fixed reference date, floating market data";
            vol = new SwaptionVolatilityMatrix(Settings.evaluationDate(),
                                                vars.conventions.calendar,
                                                vars.conventions.optionBdc,
                                                vars.atm.tenors.options,
                                                vars.atm.tenors.swaps,
                                                vars.atm.volsHandle,
                                                vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            // floating reference date, fixed market data
            description = "floating reference date, fixed market data";
            vol = new SwaptionVolatilityMatrix(vars.conventions.calendar,
                                                vars.conventions.optionBdc,
                                                vars.atm.tenors.options,
                                                vars.atm.tenors.swaps,
                                                vars.atm.volsHandle,
                                                vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);

            // fixed reference date, fixed market data
            description = "fixed reference date, fixed market data";
            vol = new SwaptionVolatilityMatrix(Settings.evaluationDate(),
                                                vars.conventions.calendar,
                                                vars.conventions.optionBdc,
                                                vars.atm.tenors.options,
                                                vars.atm.tenors.swaps,
                                                vars.atm.volsHandle,
                                                vars.conventions.dayCounter);

            vars.makeCoherenceTest(description, vol);
        }
Exemplo n.º 17
0
        public void cpicapfloorpricesurface()
        {
            // check inflation leg vs calculation directly from inflation TS
            CommonVars common = new CommonVars();

            double nominal = 1.0;
            InterpolatedCPICapFloorTermPriceSurface <Bilinear> cpiSurf = new InterpolatedCPICapFloorTermPriceSurface <Bilinear>(
                nominal,
                common.baseZeroRate,
                common.observationLag,
                common.calendar,
                common.convention,
                common.dcZCIIS,
                common.hii,
                common.nominalUK,
                common.cStrikesUK,
                common.fStrikesUK,
                common.cfMaturitiesUK,
                common.cPriceUK,
                common.fPriceUK);

            // test code - note order of indices
            for (int i = 0; i < common.fStrikesUK.Count; i++)
            {
                double qK   = common.fStrikesUK[i];
                int    nMat = common.cfMaturitiesUK.Count;
                for (int j = 0; j < nMat; j++)
                {
                    Period t = common.cfMaturitiesUK[j];
                    double a = common.fPriceUK[i, j];
                    double b = cpiSurf.floorPrice(t, qK);

                    Utils.QL_REQUIRE(Math.Abs(a - b) < 1e-7, () => "cannot reproduce cpi floor data from surface: "
                                     + a + " vs constructed = " + b);
                }
            }

            for (int i = 0; i < common.cStrikesUK.Count; i++)
            {
                double qK   = common.cStrikesUK[i];
                int    nMat = common.cfMaturitiesUK.Count;
                for (int j = 0; j < nMat; j++)
                {
                    Period t = common.cfMaturitiesUK[j];
                    double a = common.cPriceUK[i, j];
                    double b = cpiSurf.capPrice(t, qK);

                    QAssert.IsTrue(Math.Abs(a - b) < 1e-7, "cannot reproduce cpi cap data from surface: "
                                   + a + " vs constructed = " + b);
                }
            }

            // remove circular refernce
            common.hcpi.linkTo(null);
        }
Exemplo n.º 18
0
    private static bool pReadQuiltCSVFile(ref CommonVars commonVars, string fileName)
    {
        bool reading = false;

        try
        {
            using (StreamReader sr = new(fileName))
            {
                reading = true;
                char[] csvSeparators = { ',' };

                // Read in non-CSV data first
                // Pattern line
                string check = sr.ReadLine();
                // ReSharper disable once PossibleNullReferenceException
                if (!check.StartsWith("Quilt"))
                {
                    return(false);
                }
                // Now we have the meat of the data we need.
                string   tempString   = sr.ReadLine();
                string[] parsedString = tempString.Split(csvSeparators);
                if (parsedString.Length >= 6)
                {
                    // We have 6 values to extract from this line.
                    // X-offset, Y-offset, X pitch, Y pitch, rows, cols
                    // Convert from um to nm in the process.
                    // Take the second result of the split which is the numeric value. Convert it to double, multiply by 1000 to convert units. Make int.
                    commonVars.getSimulationSettings().getDOESettings().setDouble(DOESettings.properties_d.colOffset, Convert.ToDouble(parsedString[0]));
                    commonVars.getSimulationSettings().getDOESettings().setDouble(DOESettings.properties_d.rowOffset, Convert.ToDouble(parsedString[1]));
                    commonVars.getSimulationSettings().getDOESettings().setDouble(DOESettings.properties_d.colPitch, Convert.ToDouble(parsedString[2]));
                    commonVars.getSimulationSettings().getDOESettings().setDouble(DOESettings.properties_d.rowPitch, Convert.ToDouble(parsedString[3]));
                    commonVars.getSimulationSettings().getDOESettings().setInt(DOESettings.properties_i.rows, Convert.ToInt32(parsedString[4]));
                    commonVars.getSimulationSettings().getDOESettings().setInt(DOESettings.properties_i.cols, Convert.ToInt32(parsedString[5]));
                }
                else
                {
                    // We need to break here.
                    ErrorReporter.showMessage_OK("CSV file doesn't match expectations.", "Aborting.");
                    return(false);
                }
            }
            reading = false;
        }
        catch (Exception)
        {
            return(reading);
        }

        commonVars.getSimulationSettings().getDOESettings().setBool(DOESettings.properties_b.quilt, true);
        commonVars.getSimulationSettings().getDOESettings().setInt(DOESettings.properties_i.uTileList, 0);
        commonVars.getSimulationSettings().getDOESettings().setInt(DOESettings.properties_i.sTile, 0);
        return(reading);
    }
Exemplo n.º 19
0
        public void testSetInterpolationFactory()
        {
            // Testing factory constructor with additional parameters...

            CommonVars vars = new CommonVars();

            List <Handle <Quote> > spreads = new List <Handle <Quote> >();
            SimpleQuote            spread1 = new SimpleQuote(0.02);
            SimpleQuote            spread2 = new SimpleQuote(0.03);
            SimpleQuote            spread3 = new SimpleQuote(0.01);

            spreads.Add(new Handle <Quote>(spread1));
            spreads.Add(new Handle <Quote>(spread2));
            spreads.Add(new Handle <Quote>(spread3));

            List <Date> spreadDates = new List <Date>();

            spreadDates.Add(vars.calendar.advance(vars.today, 8, TimeUnit.Months));
            spreadDates.Add(vars.calendar.advance(vars.today, 15, TimeUnit.Months));
            spreadDates.Add(vars.calendar.advance(vars.today, 25, TimeUnit.Months));

            Date interpolationDate = vars.calendar.advance(vars.today, 11, TimeUnit.Months);

            ZeroYieldStructure spreadedTermStructure;

            Frequency freq = Frequency.NoFrequency;

            Cubic factory = new Cubic(CubicInterpolation.DerivativeApprox.Spline,
                                      false,
                                      CubicInterpolation.BoundaryCondition.SecondDerivative, 0,
                                      CubicInterpolation.BoundaryCondition.SecondDerivative, 0);

            spreadedTermStructure =
                new InterpolatedPiecewiseZeroSpreadedTermStructure <Cubic>(
                    new Handle <YieldTermStructure>(vars.termStructure),
                    spreads, spreadDates, vars.compounding,
                    freq, vars.dayCount, factory);

            double t = vars.dayCount.yearFraction(vars.today, interpolationDate);
            double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();

            double tolerance    = 1e-9;
            double expectedRate = vars.termStructure.zeroRate(t, vars.compounding).value() +
                                  0.026065770863;

            if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            {
                QAssert.Fail(
                    "unable to reproduce interpolated rate\n"
                    + "    calculated: " + interpolatedZeroRate + "\n"
                    + "    expected: " + expectedRate);
            }
        }
Exemplo n.º 20
0
        public void testTermVolatilityStripping2()
        {
            // Testing forward/forward vol stripping from non-flat term vol "
            // surface using OptionletStripper2 class...");

            CommonVars vars = new CommonVars();

            Settings.setEvaluationDate(Date.Today);

            vars.setCapFloorTermVolCurve();
            vars.setCapFloorTermVolSurface();

            IborIndex iborIndex = new Euribor6M(vars.yieldTermStructure);

            // optionletstripper1
            OptionletStripper1       optionletStripper1        = new OptionletStripper1(vars.capFloorVolSurface, iborIndex, null, vars.accuracy);
            StrippedOptionletAdapter strippedOptionletAdapter1 = new StrippedOptionletAdapter(optionletStripper1);
            Handle <OptionletVolatilityStructure> vol1         = new Handle <OptionletVolatilityStructure>(strippedOptionletAdapter1);

            vol1.link.enableExtrapolation();

            // optionletstripper2
            OptionletStripper        optionletStripper2        = new OptionletStripper2(optionletStripper1, vars.capFloorVolCurve);
            StrippedOptionletAdapter strippedOptionletAdapter2 = new StrippedOptionletAdapter(optionletStripper2);
            Handle <OptionletVolatilityStructure> vol2         = new Handle <OptionletVolatilityStructure>(strippedOptionletAdapter2);

            vol2.link.enableExtrapolation();

            // consistency check: diff(stripped vol1-stripped vol2)
            for (int strikeIndex = 0; strikeIndex < vars.strikes.Count; ++strikeIndex)
            {
                for (int tenorIndex = 0; tenorIndex < vars.optionTenors.Count; ++tenorIndex)
                {
                    double strippedVol1 = vol1.link.volatility(vars.optionTenors[tenorIndex], vars.strikes[strikeIndex], true);
                    double strippedVol2 = vol2.link.volatility(vars.optionTenors[tenorIndex], vars.strikes[strikeIndex], true);

                    // vol from flat vol surface (for comparison only)
                    double flatVol = vars.capFloorVolSurface.volatility(vars.optionTenors[tenorIndex], vars.strikes[strikeIndex], true);

                    double error = Math.Abs(strippedVol1 - strippedVol2);
                    if (error > vars.tolerance)
                    {
                        QAssert.Fail("\noption tenor:  " + vars.optionTenors[tenorIndex] +
                                     "\nstrike:        " + (vars.strikes[strikeIndex]) +
                                     "\nstripped vol1: " + (strippedVol1) +
                                     "\nstripped vol2: " + (strippedVol2) +
                                     "\nflat vol:      " + (flatVol) +
                                     "\nerror:         " + (error) +
                                     "\ntolerance:     " + (vars.tolerance));
                    }
                }
            }
        }
Exemplo n.º 21
0
 private void init(int number, bool previewMode, bool doPASearch, ref CommonVars commonVars)
 {
     dimensions  = ChaosSettings.getDimensions();
     _commonVars = commonVars;
     if (_commonVars.getSimulationSettings().getValue(EntropySettings.properties_i.linkCDU) == 1)
     {
         dimensions -= 3;
     }
     sampleCount = number;
     pMode       = previewMode;
     paSearch    = doPASearch;
 }
Exemplo n.º 22
0
        public void testQuoteChanging()
        {
            // Testing quote update...

            CommonVars vars = new CommonVars();

            List <Handle <Quote> > spreads = new List <Handle <Quote> >();
            SimpleQuote            spread1 = new SimpleQuote(0.02);
            SimpleQuote            spread2 = new SimpleQuote(0.03);

            spreads.Add(new Handle <Quote>(spread1));
            spreads.Add(new Handle <Quote>(spread2));

            List <Date> spreadDates = new List <Date>();

            spreadDates.Add(vars.calendar.advance(vars.today, 100, TimeUnit.Days));
            spreadDates.Add(vars.calendar.advance(vars.today, 150, TimeUnit.Days));

            Date interpolationDate = vars.calendar.advance(vars.today, 120, TimeUnit.Days);

            ZeroYieldStructure spreadedTermStructure =
                new InterpolatedPiecewiseZeroSpreadedTermStructure <BackwardFlat>(
                    new Handle <YieldTermStructure>(vars.termStructure),
                    spreads, spreadDates);

            double t = vars.dayCount.yearFraction(vars.settlementDate, interpolationDate);
            double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();
            double tolerance            = 1e-9;
            double expectedRate         = vars.termStructure.zeroRate(t, vars.compounding).value() +
                                          0.03;

            if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            {
                QAssert.Fail(
                    "unable to reproduce interpolated rate\n"
                    + "    calculated: " + interpolatedZeroRate + "\n"
                    + "    expected: " + expectedRate);
            }

            spread2.setValue(0.025);

            interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();
            expectedRate         = vars.termStructure.zeroRate(t, vars.compounding).value() +
                                   0.025;

            if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            {
                QAssert.Fail(
                    "unable to reproduce interpolated rate\n"
                    + "    calculated: " + interpolatedZeroRate + "\n"
                    + "    expected: " + expectedRate);
            }
        }
Exemplo n.º 23
0
        //[TestMethod()]
        public void testLogCubicDiscountConsistency()
        {
            // "Testing consistency of piecewise-log-cubic discount curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <Discount, LogCubic, IterativeBootstrapForYield>(vars,
                                                                                  new LogCubic(CubicInterpolation.DerivativeApprox.Spline, true,
                                                                                               CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                                                                                               CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
            testBMACurveConsistency <Discount, LogCubic, IterativeBootstrapForYield>(vars,
                                                                                     new LogCubic(CubicInterpolation.DerivativeApprox.Spline, true,
                                                                                                  CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                                                                                                  CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
        }
Exemplo n.º 24
0
 private void core(VarianceContext _varianceContext)
 {
     varianceContext          = _varianceContext;
     commonVars               = new CommonVars(varianceContext);
     varianceContext.emailPwd = varianceContext.aes.EncryptToString(varianceContext.emailPwd);
     entropyControl           = new Entropy(ref varianceContext, commonVars);
     commonVars.getNonSimulationSettings().emailOnCompletion = varianceContext.completion;
     commonVars.getNonSimulationSettings().emailPerJob       = varianceContext.perJob;
     commonVars.getNonSimulationSettings().emailAddress      = varianceContext.emailAddress;
     commonVars.getNonSimulationSettings().emailPwd          = varianceContext.emailPwd;
     commonVars.getNonSimulationSettings().host = varianceContext.host;
     commonVars.getNonSimulationSettings().ssl  = varianceContext.ssl;
     commonVars.getNonSimulationSettings().port = varianceContext.port;
     commonVars.storage.setLayerSettings = setLayerSettings;
 }
Exemplo n.º 25
0
        public void testLinearInterpolationMultipleSpreads()
        {
            // Testing linear interpolation with more than two spreaded dates...

            CommonVars vars = new CommonVars();

            List <Handle <Quote> > spreads = new List <Handle <Quote> >();
            SimpleQuote            spread1 = new SimpleQuote(0.02);
            SimpleQuote            spread2 = new SimpleQuote(0.02);
            SimpleQuote            spread3 = new SimpleQuote(0.035);
            SimpleQuote            spread4 = new SimpleQuote(0.04);

            spreads.Add(new Handle <Quote>(spread1));
            spreads.Add(new Handle <Quote>(spread2));
            spreads.Add(new Handle <Quote>(spread3));
            spreads.Add(new Handle <Quote>(spread4));

            List <Date> spreadDates = new List <Date>();

            spreadDates.Add(vars.calendar.advance(vars.today, 90, TimeUnit.Days));
            spreadDates.Add(vars.calendar.advance(vars.today, 150, TimeUnit.Days));
            spreadDates.Add(vars.calendar.advance(vars.today, 30, TimeUnit.Months));
            spreadDates.Add(vars.calendar.advance(vars.today, 40, TimeUnit.Months));

            Date interpolationDate = vars.calendar.advance(vars.today, 120, TimeUnit.Days);

            ZeroYieldStructure spreadedTermStructure =
                new PiecewiseZeroSpreadedTermStructure(
                    new Handle <YieldTermStructure>(vars.termStructure),
                    spreads, spreadDates);

            double t = vars.dayCount.yearFraction(vars.today, interpolationDate);
            double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();

            double tolerance    = 1e-9;
            double expectedRate = vars.termStructure.zeroRate(t, vars.compounding).value() +
                                  spread1.value();

            if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            {
                QAssert.Fail(
                    "unable to reproduce interpolated rate\n"

                    + "    calculated: " + interpolatedZeroRate + "\n"
                    + "    expected: " + expectedRate);
            }
        }
Exemplo n.º 26
0
        public void testSplineZeroConsistency()
        {
            //"Testing consistency of piecewise-cubic zero-yield curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ZeroYield, Cubic, IterativeBootstrap>(
                vars,
                new Cubic(CubicInterpolation.DerivativeApprox.Spline, true,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
            testBMACurveConsistency <ZeroYield, Cubic, IterativeBootstrap>(
                vars,
                new Cubic(CubicInterpolation.DerivativeApprox.Spline, true,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
        }
Exemplo n.º 27
0
        //[TestMethod()]
        public void testSplineForwardConsistency()
        {
            //"Testing consistency of piecewise-cubic forward-rate curve...");

            CommonVars vars = new CommonVars();

            testCurveConsistency <ForwardRate, Cubic, IterativeBootstrapForYield>(
                vars,
                new Cubic(CubicInterpolation.DerivativeApprox.Spline, true,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
            testBMACurveConsistency <ForwardRate, Cubic, IterativeBootstrapForYield>(
                vars,
                new Cubic(CubicInterpolation.DerivativeApprox.Spline, true,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0,
                          CubicInterpolation.BoundaryCondition.SecondDerivative, 0.0));
        }
Exemplo n.º 28
0
        public void testLogLinearZeroConsistency()
        {
            // "Testing consistency of piecewise-log-linear zero-yield curve...");

            // if rates can be negative it makes no sense to interpolate loglinearly
            if (Utils.is_QL_NEGATIVE_RATES())
            {
                return;
            }
            else
            {
                CommonVars vars = new CommonVars();

                testCurveConsistency <ZeroYield, LogLinear, IterativeBootstrapForYield>(vars);
                testBMACurveConsistency <ZeroYield, LogLinear, IterativeBootstrapForYield>(vars);
            }
        }
Exemplo n.º 29
0
        public void testConsistency()
        {
            CommonVars vars = new CommonVars();

            int[]    lengths     = { 1, 2, 3, 5, 7, 10, 15, 20 };
            double[] cap_rates   = { 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] floor_rates = { 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] vols        = { 0.01, 0.05, 0.10, 0.15, 0.20 };

            Date startDate = vars.termStructure.link.referenceDate();

            for (int i = 0; i < lengths.Length; i++)
            {
                for (int j = 0; j < cap_rates.Length; j++)
                {
                    for (int k = 0; k < floor_rates.Length; k++)
                    {
                        for (int l = 0; l < vols.Length; l++)
                        {
                            List <CashFlow> leg = vars.makeLeg(startDate, lengths[i]);
                            Instrument      cap = vars.makeCapFloor(CapFloorType.Cap, leg,
                                                                    cap_rates[j], vols[l]);
                            Instrument floor = vars.makeCapFloor(CapFloorType.Floor, leg,
                                                                 floor_rates[k], vols[l]);
                            Collar collar = new Collar(leg, new InitializedList <double>(1, cap_rates[j]),
                                                       new InitializedList <double>(1, floor_rates[k]));
                            collar.setPricingEngine(vars.makeEngine(vols[l]));

                            if (Math.Abs((cap.NPV() - floor.NPV()) - collar.NPV()) > 1e-10)
                            {
                                QAssert.Fail(
                                    "inconsistency between cap, floor and collar:\n"
                                    + "    length:       " + lengths[i] + " years\n"
                                    + "    volatility:   " + vols[l] + "\n"
                                    + "    cap value:    " + cap.NPV()
                                    + " at strike: " + cap_rates[j] + "\n"
                                    + "    floor value:  " + floor.NPV()
                                    + " at strike: " + floor_rates[k] + "\n"
                                    + "    collar value: " + collar.NPV());
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 30
0
        public void testParity()
        {
            CommonVars vars = new CommonVars();

            int[]    lengths = { 1, 2, 3, 5, 7, 10, 15, 20 };
            double[] strikes = { 0.0, 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] vols    = { 0.01, 0.05, 0.10, 0.15, 0.20 };

            Date startDate = vars.termStructure.link.referenceDate();

            for (int i = 0; i < lengths.Length; i++)
            {
                for (int j = 0; j < strikes.Length; j++)
                {
                    for (int k = 0; k < vols.Length; k++)
                    {
                        List <CashFlow> leg      = vars.makeLeg(startDate, lengths[i]);
                        Instrument      cap      = vars.makeCapFloor(CapFloorType.Cap, leg, strikes[j], vols[k]);
                        Instrument      floor    = vars.makeCapFloor(CapFloorType.Floor, leg, strikes[j], vols[k]);
                        Date            maturity = vars.calendar.advance(startDate, lengths[i], TimeUnit.Years, vars.convention);
                        Schedule        schedule = new Schedule(startDate, maturity,
                                                                new Period(vars.frequency), vars.calendar,
                                                                vars.convention, vars.convention,
                                                                DateGeneration.Rule.Forward, false);
                        VanillaSwap swap = new VanillaSwap(VanillaSwap.Type.Payer, vars.nominals[0],
                                                           schedule, strikes[j], vars.index.dayCounter(),
                                                           schedule, vars.index, 0.0,
                                                           vars.index.dayCounter());
                        swap.setPricingEngine((IPricingEngine) new DiscountingSwapEngine(vars.termStructure));
                        // FLOATING_POINT_EXCEPTION
                        if (Math.Abs((cap.NPV() - floor.NPV()) - swap.NPV()) > 1.0e-10)
                        {
                            QAssert.Fail(
                                "put/call parity violated:\n"
                                + "    length:      " + lengths[i] + " years\n"
                                + "    volatility:  " + vols[k] + "\n"
                                + "    strike:      " + strikes[j] + "\n"
                                + "    cap value:   " + cap.NPV() + "\n"
                                + "    floor value: " + floor.NPV() + "\n"
                                + "    swap value:  " + swap.NPV());
                        }
                    }
                }
            }
        }
Exemplo n.º 31
0
        public void testLinearInterpolation()
        {
            // Testing linear interpolation between two dates...

            CommonVars vars = new CommonVars();

            List <Handle <Quote> > spreads = new List <Handle <Quote> >();
            SimpleQuote            spread1 = new SimpleQuote(0.02);
            SimpleQuote            spread2 = new SimpleQuote(0.03);

            spreads.Add(new Handle <Quote>(spread1));
            spreads.Add(new Handle <Quote>(spread2));

            List <Date> spreadDates = new List <Date>();

            spreadDates.Add(vars.calendar.advance(vars.today, 100, TimeUnit.Days));
            spreadDates.Add(vars.calendar.advance(vars.today, 150, TimeUnit.Days));

            Date interpolationDate = vars.calendar.advance(vars.today, 120, TimeUnit.Days);

            ZeroYieldStructure spreadedTermStructure =
                new InterpolatedPiecewiseZeroSpreadedTermStructure <Linear>(
                    new Handle <YieldTermStructure>(vars.termStructure),
                    spreads, spreadDates);

            Date d0 = vars.calendar.advance(vars.today, 100, TimeUnit.Days);
            Date d1 = vars.calendar.advance(vars.today, 150, TimeUnit.Days);
            Date d2 = vars.calendar.advance(vars.today, 120, TimeUnit.Days);

            double m            = (0.03 - 0.02) / vars.dayCount.yearFraction(d0, d1);
            double expectedRate = m * vars.dayCount.yearFraction(d0, d2) + 0.054;

            double t = vars.dayCount.yearFraction(vars.settlementDate, interpolationDate);
            double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();

            double tolerance = 1e-9;

            if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            {
                QAssert.Fail(
                    "unable to reproduce interpolated rate\n"
                    + "    calculated: " + interpolatedZeroRate + "\n"
                    + "    expected: " + expectedRate);
            }
        }
Exemplo n.º 32
0
        public void testCurveCopy <T, I>(CommonVars vars, I interpolator)
            where T : ITraits <YieldTermStructure>, new()
            where I : IInterpolationFactory, new()
        {
            PiecewiseYieldCurve <T, I> curve = new PiecewiseYieldCurve <T, I>(vars.settlement, vars.instruments,
                                                                              new Actual360(),
                                                                              new List <Handle <Quote> >(),
                                                                              new List <Date>(),
                                                                              1.0e-12,
                                                                              interpolator);

            // necessary to trigger bootstrap
            curve.recalculate();

            PiecewiseYieldCurve copiedCurve = curve.Clone() as PiecewiseYieldCurve;

            // the two curves should be the same.
            double t  = 2.718;
            var    r1 = curve.zeroRate(t, Compounding.Continuous).value();
            var    r2 = copiedCurve.zeroRate(t, Compounding.Continuous).value();

            if (!Utils.close(r1, r2))
            {
                QAssert.Fail("failed to link original and copied curve");
            }

            for (int i = 0; i < vars.rates.Count; ++i)
            {
                vars.rates[i].setValue(vars.rates[i].value() + 0.001);
            }

            // now the original curve should have changed; the copied
            // curve should not.
            double r3 = curve.zeroRate(t, Compounding.Continuous).value();
            double r4 = copiedCurve.zeroRate(t, Compounding.Continuous).value();

            if (Utils.close(r1, r3))
            {
                QAssert.Fail("failed to modify original curve");
            }
            if (!Utils.close(r2, r4))
            {
                QAssert.Fail("failed to break link between original and copied curve");
            }
        }
Exemplo n.º 33
0
        public void testSmile()
        {
            // Testing swaption volatility cube (smile)
            CommonVars vars = new CommonVars();

            SwaptionVolCube2 volCube = new SwaptionVolCube2(vars.atmVolMatrix,
                                                            vars.cube.tenors.options,
                                                            vars.cube.tenors.swaps,
                                                            vars.cube.strikeSpreads,
                                                            vars.cube.volSpreadsHandle,
                                                            vars.swapIndexBase,
                                                            vars.shortSwapIndexBase,
                                                            vars.vegaWeighedSmileFit);

            double tolerance = 1.0e-16;

            vars.makeVolSpreadsTest(volCube, tolerance);
        }
Exemplo n.º 34
0
        public void testForwardRateDayCounter()
        {
            CommonVars vars = new CommonVars();
            DayCounter d    = new ActualActual();
            DayCounter d1   = new Actual360();

            vars.termStructure = new PiecewiseYieldCurve <Discount, LogLinear>(vars.settlementDays,
                                                                               vars.calendar, vars.instruments, d);

            InterestRate ir = vars.termStructure.forwardRate(vars.settlement, vars.settlement + 30, d1, Compounding.Simple);

            if (ir.dayCounter().name() != d1.name())
            {
                QAssert.Fail("PiecewiseYieldCurve forwardRate dayCounter error" +
                             " Actual daycounter : " + vars.termStructure.dayCounter().name() +
                             " Expetced DayCounter : " + d1.name());
            }
        }
Exemplo n.º 35
0
        public void testImpliedObs()
        {
            // Testing observability of implied term structure
            CommonVars vars = new CommonVars();

            Date today         = Settings.evaluationDate();
            Date newToday      = today + new Period(3, TimeUnit.Years);
            Date newSettlement = vars.calendar.advance(newToday, vars.settlementDays, TimeUnit.Days);
            RelinkableHandle <YieldTermStructure> h = new RelinkableHandle <YieldTermStructure>();
            YieldTermStructure implied = new ImpliedTermStructure(h, newSettlement);
            Flag flag = new Flag();

            implied.registerWith(flag.update);
            h.linkTo(vars.termStructure);
            if (!flag.isUp())
            {
                QAssert.Fail("Observer was not notified of term structure change");
            }
        }
Exemplo n.º 36
0
        public void testLargeRates()
        {
            // Testing degenerate collared coupon

            CommonVars vars = new CommonVars();

            /* A vanilla floating leg and a capped floating leg with strike
             * equal to 100 and floor equal to 0 must have (about) the same NPV
             * (depending on variance: option expiry and volatility)
             */

            List <double?> caps      = new InitializedList <double?>(vars.length, 100.0);
            List <double?> floors    = new InitializedList <double?>(vars.length, 0.0);
            double         tolerance = 1e-10;

            // fixed leg with zero rate
            List <CashFlow> fixedLeg    = vars.makeFixedLeg(vars.startDate, vars.length);
            List <CashFlow> floatLeg    = vars.makeFloatingLeg(vars.startDate, vars.length);
            List <CashFlow> collaredLeg = vars.makeCapFlooredLeg(vars.startDate, vars.length, caps, floors, vars.volatility);

            IPricingEngine engine     = new DiscountingSwapEngine(vars.termStructure);
            Swap           vanillaLeg = new Swap(fixedLeg, floatLeg);
            Swap           collarLeg  = new Swap(fixedLeg, collaredLeg);

            vanillaLeg.setPricingEngine(engine);
            collarLeg.setPricingEngine(engine);
            double npvVanilla = vanillaLeg.NPV();
            double npvCollar  = collarLeg.NPV();

            if (Math.Abs(npvVanilla - npvCollar) > tolerance)
            {
                QAssert.Fail("Lenght: " + vars.length + " y" + "\n" +
                             "Volatility: " + vars.volatility * 100 + "%\n" +
                             "Notional: " + vars.nominal + "\n" +
                             "Vanilla floating leg NPV: " + vanillaLeg.NPV()
                             + "\n" +
                             "Collared floating leg NPV (strikes 0 and 100): "
                             + collarLeg.NPV()
                             + "\n" +
                             "Diff: " + Math.Abs(vanillaLeg.NPV() - collarLeg.NPV()));
            }
        }
Exemplo n.º 37
0
        public void testFSpreadedObs()
        {
            // ("Testing observability of forward-spreaded term structure...");

             CommonVars vars = new CommonVars();

             SimpleQuote me = new SimpleQuote(0.01);
             Handle<Quote> mh = new Handle<Quote>(me);
             RelinkableHandle<YieldTermStructure> h = new RelinkableHandle<YieldTermStructure>(); //(vars.dummyTermStructure);
             YieldTermStructure spreaded = new ForwardSpreadedTermStructure(h, mh);
             Flag flag = new Flag();
             spreaded.registerWith(flag.update);
             h.linkTo(vars.termStructure);
             if (!flag.isUp())
            Console.WriteLine("Observer was not notified of term structure change");
             flag.lower();
             me.setValue(0.005);
             if (!flag.isUp())
            Console.WriteLine("Observer was not notified of spread change");
        }
        public void testBackwardFlatInterpolation()
        {
            // Testing backward flat interpolation between two dates...

             CommonVars vars = new CommonVars();

             List<Handle<Quote>> spreads = new List<Handle<Quote>>();
             SimpleQuote spread1 = new SimpleQuote(0.02);
             SimpleQuote spread2 = new SimpleQuote(0.03);
             SimpleQuote spread3 = new SimpleQuote(0.04);
             spreads.Add(new Handle<Quote>(spread1));
             spreads.Add(new Handle<Quote>(spread2));
             spreads.Add(new Handle<Quote>(spread3));

             List<Date> spreadDates = new List<Date>();
             spreadDates.Add(vars.calendar.advance(vars.today, 100, TimeUnit.Days));
             spreadDates.Add(vars.calendar.advance(vars.today, 200, TimeUnit.Days));
             spreadDates.Add(vars.calendar.advance(vars.today, 300, TimeUnit.Days));

             Date interpolationDate = vars.calendar.advance(vars.today, 110, TimeUnit.Days);

             ZeroYieldStructure spreadedTermStructure =
             new InterpolatedPiecewiseZeroSpreadedTermStructure<BackwardFlat>(
                             new Handle<YieldTermStructure>(vars.termStructure),
                             spreads, spreadDates);

             double t = vars.dayCount.yearFraction(vars.today, interpolationDate);
             double interpolatedZeroRate = spreadedTermStructure.zeroRate(t, vars.compounding).value();

             double tolerance = 1e-9;
             double expectedRate = vars.termStructure.zeroRate(t, vars.compounding).value() +
                             spread2.value();

             if (Math.Abs(interpolatedZeroRate - expectedRate) > tolerance)
            Assert.Fail(
                "unable to reproduce interpolated rate\n"
                + "    calculated: " + interpolatedZeroRate + "\n"
                + "    expected: " + expectedRate);
        }
Exemplo n.º 39
0
        public void testFSpreaded()
        {
            //("Testing consistency of forward-spreaded term structure...");
             CommonVars vars = new CommonVars();

             double tolerance = 1.0e-10;
             Quote me = new SimpleQuote(0.01);
             Handle<Quote> mh = new Handle<Quote>(me);
             YieldTermStructure spreaded = new ForwardSpreadedTermStructure(new Handle<YieldTermStructure>(vars.termStructure), mh);
             Date testDate = vars.termStructure.referenceDate() + new Period(5, TimeUnit.Years);
             DayCounter tsdc = vars.termStructure.dayCounter();
             DayCounter sprdc = spreaded.dayCounter();
             double forward = vars.termStructure.forwardRate(testDate, testDate, tsdc, Compounding.Continuous,
                                                         Frequency.NoFrequency).rate();
             double spreadedForward = spreaded.forwardRate(testDate, testDate, sprdc, Compounding.Continuous,
                                                         Frequency.NoFrequency).rate();
             if (Math.Abs(forward - (spreadedForward - me.value())) > tolerance)
            Console.WriteLine("unable to reproduce forward from spreaded curve\n"
                + "    calculated: "
                + (spreadedForward - me.value()) + "\n"
                + "    expected:   " + forward);
        }
Exemplo n.º 40
0
        public void testCachedValue()
        {
            //("Testing vanilla-swap calculation against cached value...");

             CommonVars vars = new CommonVars();

             vars.today = new Date(17, Month.June, 2002);
             Settings.setEvaluationDate(vars.today);
             vars.settlement = vars.calendar.advance(vars.today, vars.settlementDays, TimeUnit.Days);
             vars.termStructure.linkTo(Utilities.flatRate(vars.settlement, 0.05, new Actual365Fixed()));

             VanillaSwap swap = vars.makeSwap(10, 0.06, 0.001);
            #if QL_USE_INDEXED_COUPON
            double cachedNPV   = -5.872342992212;
            #else
             double cachedNPV = -5.872863313209;
            #endif

             if (Math.Abs(swap.NPV() - cachedNPV) > 1.0e-11)
            Assert.Fail("failed to reproduce cached swap value:\n"
                        + "    calculated: " + swap.NPV() + "\n"
                        + "    expected:   " + cachedNPV);
        }
Exemplo n.º 41
0
        public void testMASWWithGenericBond()
        {
            // Testing market asset swap against par asset swap with generic bond...

             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;
             int fixingDays = 2;
             bool payFixedRate = true;
             bool parAssetSwap = true;
             bool mktAssetSwap = false;
             bool inArrears = false;

             // Fixed Underlying bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day

             Date fixedBondStartDate1 = new Date(4,Month.January,2005);
             Date fixedBondMaturityDate1 = new Date(4,Month.January,2037);
             Schedule fixedBondSchedule1 = new Schedule(fixedBondStartDate1,
                                    fixedBondMaturityDate1,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg1 = new FixedRateLeg(fixedBondSchedule1)
            .withCouponRates(0.04, new ActualActual(ActualActual.Convention.ISDA))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption1 = bondCalendar.adjust(fixedBondMaturityDate1,   BusinessDayConvention.Following);
             fixedBondLeg1.Add(new SimpleCashFlow(100.0, fixedbondRedemption1));
             Bond fixedBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount, fixedBondMaturityDate1,
            fixedBondStartDate1, fixedBondLeg1);
             IPricingEngine bondEngine = new DiscountingBondEngine(vars.termStructure);
             IPricingEngine swapEngine = new DiscountingSwapEngine(vars.termStructure);
             fixedBond1.setPricingEngine(bondEngine);

             double fixedBondMktPrice1 = 89.22 ; // market price observed on 7th June 2007
             double fixedBondMktFullPrice1=fixedBondMktPrice1+fixedBond1.accruedAmount();
             AssetSwap fixedBondParAssetSwap1= new AssetSwap(payFixedRate,
                                          fixedBond1, fixedBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedBondParAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondParAssetSwapSpread1 = fixedBondParAssetSwap1.fairSpread();
             AssetSwap fixedBondMktAssetSwap1 = new AssetSwap(payFixedRate,
                                          fixedBond1, fixedBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             fixedBondMktAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondMktAssetSwapSpread1 = fixedBondMktAssetSwap1.fairSpread();

             double tolerance = 1.0e-13;
             double error1 =
            Math.Abs(fixedBondMktAssetSwapSpread1-
                     100*fixedBondParAssetSwapSpread1/fixedBondMktFullPrice1);

             if (error1>tolerance)
            Assert.Fail("wrong asset swap spreads for fixed bond:" +
                        "\n  market asset swap spread: " + fixedBondMktAssetSwapSpread1 +
                        "\n  par asset swap spread:    " + fixedBondParAssetSwapSpread1 +
                        "\n  error:                    " + error1 +
                        "\n  tolerance:                " + tolerance);

             // Fixed Underlying bond (Isin: IT0006527060 IBRD 5 02/05/19)
             // maturity occurs on a business day

             Date fixedBondStartDate2 = new Date(5,Month.February,2005);
             Date fixedBondMaturityDate2 = new Date(5,Month.February,2019);
             Schedule fixedBondSchedule2 = new Schedule(fixedBondStartDate2,
                                    fixedBondMaturityDate2,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg2 = new FixedRateLeg(fixedBondSchedule2)
            .withCouponRates(0.05, new Thirty360(Thirty360.Thirty360Convention.BondBasis))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption2 = bondCalendar.adjust(fixedBondMaturityDate2,  BusinessDayConvention.Following);
             fixedBondLeg2.Add(new SimpleCashFlow(100.0, fixedbondRedemption2));
             Bond fixedBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount, fixedBondMaturityDate2, fixedBondStartDate2,
            fixedBondLeg2);
             fixedBond2.setPricingEngine(bondEngine);

             double fixedBondMktPrice2 = 99.98 ; // market price observed on 7th June 2007
             double fixedBondMktFullPrice2=fixedBondMktPrice2+fixedBond2.accruedAmount();
             AssetSwap fixedBondParAssetSwap2= new AssetSwap(payFixedRate,
                                          fixedBond2, fixedBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedBondParAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondParAssetSwapSpread2 = fixedBondParAssetSwap2.fairSpread();
             AssetSwap fixedBondMktAssetSwap2= new AssetSwap(payFixedRate,
                                          fixedBond2, fixedBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             fixedBondMktAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondMktAssetSwapSpread2 = fixedBondMktAssetSwap2.fairSpread();
             double error2 = Math.Abs(fixedBondMktAssetSwapSpread2-
                     100*fixedBondParAssetSwapSpread2/fixedBondMktFullPrice2);

             if (error2>tolerance)
            Assert.Fail("wrong asset swap spreads for fixed bond:" +
                        "\n  market asset swap spread: " + fixedBondMktAssetSwapSpread2 +
                        "\n  par asset swap spread:    " + fixedBondParAssetSwapSpread2 +
                        "\n  error:                    " + error2 +
                        "\n  tolerance:                " + tolerance);

             // FRN Underlying bond (Isin: IT0003543847 ISPIM 0 09/29/13)
             // maturity doesn't occur on a business day

             Date floatingBondStartDate1 = new Date(29,Month.September,2003);
             Date floatingBondMaturityDate1 = new Date(29,Month.September,2013);
             Schedule floatingBondSchedule1= new Schedule(floatingBondStartDate1,
                                       floatingBondMaturityDate1,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg1 = new IborLeg(floatingBondSchedule1, vars.iborIndex)
            .withPaymentDayCounter(new Actual360())
            .withFixingDays(fixingDays)
            .withSpreads(0.0056)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption1 =
            bondCalendar.adjust(floatingBondMaturityDate1, BusinessDayConvention.Following);
             floatingBondLeg1.Add(new SimpleCashFlow(100.0, floatingbondRedemption1));
             Bond floatingBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,  floatingBondMaturityDate1,
            floatingBondStartDate1, floatingBondLeg1);
             floatingBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond1.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(27,Month.March,2007), 0.0402);
             // market price observed on 7th June 2007
             double floatingBondMktPrice1 = 101.64 ;
             double floatingBondMktFullPrice1 =
            floatingBondMktPrice1+floatingBond1.accruedAmount();
             AssetSwap floatingBondParAssetSwap1 = new AssetSwap(payFixedRate,
                                             floatingBond1, floatingBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingBondParAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondParAssetSwapSpread1 =
            floatingBondParAssetSwap1.fairSpread();
             AssetSwap floatingBondMktAssetSwap1 = new AssetSwap(payFixedRate,
                                             floatingBond1, floatingBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             mktAssetSwap);
             floatingBondMktAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondMktAssetSwapSpread1 =
            floatingBondMktAssetSwap1.fairSpread();
             double error3 = Math.Abs(floatingBondMktAssetSwapSpread1-
                     100*floatingBondParAssetSwapSpread1/floatingBondMktFullPrice1);

             if (error3>tolerance)
            Assert.Fail("wrong asset swap spreads for floating bond:" +
                        "\n  market asset swap spread: " + floatingBondMktAssetSwapSpread1 +
                        "\n  par asset swap spread:    " + floatingBondParAssetSwapSpread1 +
                        "\n  error:                    " + error3 +
                        "\n  tolerance:                " + tolerance);

             // FRN Underlying bond (Isin: XS0090566539 COE 0 09/24/18)
             // maturity occurs on a business day

             Date floatingBondStartDate2 = new Date(24,Month.September,2004);
             Date floatingBondMaturityDate2 = new Date(24,Month.September,2018);
             Schedule floatingBondSchedule2 = new Schedule(floatingBondStartDate2,
                                       floatingBondMaturityDate2,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg2 = new IborLeg(floatingBondSchedule2, vars.iborIndex)
            .withFixingDays(fixingDays)
            .withSpreads(0.0025)
            .inArrears(inArrears)
            .withPaymentDayCounter(new Actual360())
            .withPaymentAdjustment(BusinessDayConvention.ModifiedFollowing)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption2 =
            bondCalendar.adjust(floatingBondMaturityDate2, BusinessDayConvention.ModifiedFollowing);
             floatingBondLeg2.Add(new
            SimpleCashFlow(100.0, floatingbondRedemption2));
             Bond floatingBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount, floatingBondMaturityDate2,
            floatingBondStartDate2, floatingBondLeg2);
             floatingBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond2.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(22,Month.March,2007), 0.04013);
             // market price observed on 7th June 2007
             double floatingBondMktPrice2 = 101.248 ;
             double floatingBondMktFullPrice2 =
            floatingBondMktPrice2+floatingBond2.accruedAmount();
             AssetSwap floatingBondParAssetSwap2 = new AssetSwap(payFixedRate,
                                             floatingBond2, floatingBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingBondParAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondParAssetSwapSpread2 = floatingBondParAssetSwap2.fairSpread();
             AssetSwap floatingBondMktAssetSwap2 = new AssetSwap(payFixedRate,
                                             floatingBond2, floatingBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             mktAssetSwap);
             floatingBondMktAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondMktAssetSwapSpread2 =
            floatingBondMktAssetSwap2.fairSpread();
             double error4 = Math.Abs(floatingBondMktAssetSwapSpread2-
                     100*floatingBondParAssetSwapSpread2/floatingBondMktFullPrice2);

             if (error4>tolerance)
            Assert.Fail("wrong asset swap spreads for floating bond:" +
                        "\n  market asset swap spread: " + floatingBondMktAssetSwapSpread2 +
                        "\n  par asset swap spread:    " + floatingBondParAssetSwapSpread2 +
                        "\n  error:                    " + error4 +
                        "\n  tolerance:                " + tolerance);

             // CMS Underlying bond (Isin: XS0228052402 CRDIT 0 8/22/20)
             // maturity doesn't occur on a business day

             Date cmsBondStartDate1 = new Date(22,Month.August,2005);
             Date cmsBondMaturityDate1 = new Date(22,Month.August,2020);
             Schedule cmsBondSchedule1= new Schedule(cmsBondStartDate1,
                                 cmsBondMaturityDate1,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg1 = new CmsLeg(cmsBondSchedule1, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withCaps(0.055)
            .withFloors(0.025)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption1 = bondCalendar.adjust(cmsBondMaturityDate1, BusinessDayConvention.Following);
             cmsBondLeg1.Add(new SimpleCashFlow(100.0, cmsbondRedemption1));
             Bond cmsBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount, cmsBondMaturityDate1, cmsBondStartDate1,
            cmsBondLeg1);
             cmsBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond1.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(18,Month.August,2006), 0.04158);
             double cmsBondMktPrice1 = 88.45 ; // market price observed on 7th June 2007
             double cmsBondMktFullPrice1 = cmsBondMktPrice1+cmsBond1.accruedAmount();
             AssetSwap cmsBondParAssetSwap1 = new AssetSwap(payFixedRate,
                                       cmsBond1, cmsBondMktPrice1,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             cmsBondParAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondParAssetSwapSpread1 = cmsBondParAssetSwap1.fairSpread();
             AssetSwap cmsBondMktAssetSwap1 = new AssetSwap(payFixedRate,
                                       cmsBond1, cmsBondMktPrice1,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       mktAssetSwap);
             cmsBondMktAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondMktAssetSwapSpread1 = cmsBondMktAssetSwap1.fairSpread();
             double error5 =
            Math.Abs(cmsBondMktAssetSwapSpread1-
                     100*cmsBondParAssetSwapSpread1/cmsBondMktFullPrice1);

             if (error5>tolerance)
            Assert.Fail("wrong asset swap spreads for cms bond:" +
                        "\n  market asset swap spread: " + cmsBondMktAssetSwapSpread1 +
                        "\n  par asset swap spread:    " + cmsBondParAssetSwapSpread1 +
                        "\n  error:                    " + error5 +
                        "\n  tolerance:                " + tolerance);

             // CMS Underlying bond (Isin: XS0218766664 ISPIM 0 5/6/15)
             // maturity occurs on a business day

             Date cmsBondStartDate2 = new Date(06,Month.May,2005);
             Date cmsBondMaturityDate2 = new Date(06,Month.May,2015);
             Schedule cmsBondSchedule2= new Schedule(cmsBondStartDate2,
                                 cmsBondMaturityDate2,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg2 = new CmsLeg(cmsBondSchedule2, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withGearings(0.84)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption2 = bondCalendar.adjust(cmsBondMaturityDate2,  BusinessDayConvention.Following);
             cmsBondLeg2.Add(new SimpleCashFlow(100.0, cmsbondRedemption2));
             Bond cmsBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,  cmsBondMaturityDate2, cmsBondStartDate2,
            cmsBondLeg2);
             cmsBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond2.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(04,Month.May,2006), 0.04217);
             double cmsBondMktPrice2 = 94.08 ; // market price observed on 7th June 2007
             double cmsBondMktFullPrice2 = cmsBondMktPrice2+cmsBond2.accruedAmount();
             AssetSwap cmsBondParAssetSwap2 = new AssetSwap(payFixedRate,
                                       cmsBond2, cmsBondMktPrice2,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             cmsBondParAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondParAssetSwapSpread2 = cmsBondParAssetSwap2.fairSpread();
             AssetSwap cmsBondMktAssetSwap2 = new AssetSwap(payFixedRate,
                                       cmsBond2, cmsBondMktPrice2,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       mktAssetSwap);
             cmsBondMktAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondMktAssetSwapSpread2 = cmsBondMktAssetSwap2.fairSpread();
             double error6 =
            Math.Abs(cmsBondMktAssetSwapSpread2-
                     100*cmsBondParAssetSwapSpread2/cmsBondMktFullPrice2);

             if (error6>tolerance)
            Assert.Fail("wrong asset swap spreads for cms bond:" +
                        "\n  market asset swap spread: " + cmsBondMktAssetSwapSpread2 +
                        "\n  par asset swap spread:    " + cmsBondParAssetSwapSpread2 +
                        "\n  error:                    " + error6 +
                        "\n  tolerance:                " + tolerance);

             // Zero Coupon bond (Isin: DE0004771662 IBRD 0 12/20/15)
             // maturity doesn't occur on a business day

             Date zeroCpnBondStartDate1 = new Date(19,Month.December,1985);
             Date zeroCpnBondMaturityDate1 = new Date(20,Month.December,2015);
             Date zeroCpnBondRedemption1 = bondCalendar.adjust(zeroCpnBondMaturityDate1,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg1 = new List<CashFlow>{new SimpleCashFlow(100.0, zeroCpnBondRedemption1)};
             Bond zeroCpnBond1 = new  Bond(settlementDays, bondCalendar, vars.faceAmount, zeroCpnBondMaturityDate1,
            zeroCpnBondStartDate1, zeroCpnBondLeg1);
             zeroCpnBond1.setPricingEngine(bondEngine);

             // market price observed on 12th June 2007
             double zeroCpnBondMktPrice1 = 70.436 ;
             double zeroCpnBondMktFullPrice1 =
            zeroCpnBondMktPrice1+zeroCpnBond1.accruedAmount();
             AssetSwap zeroCpnBondParAssetSwap1 = new AssetSwap(payFixedRate,zeroCpnBond1,
                                          zeroCpnBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             zeroCpnBondParAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondParAssetSwapSpread1 = zeroCpnBondParAssetSwap1.fairSpread();
             AssetSwap zeroCpnBondMktAssetSwap1 = new AssetSwap(payFixedRate,zeroCpnBond1,
                                          zeroCpnBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             zeroCpnBondMktAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondMktAssetSwapSpread1 = zeroCpnBondMktAssetSwap1.fairSpread();
             double error7 =
            Math.Abs(zeroCpnBondMktAssetSwapSpread1-
                     100*zeroCpnBondParAssetSwapSpread1/zeroCpnBondMktFullPrice1);

             if (error7>tolerance)
            Assert.Fail("wrong asset swap spreads for zero cpn bond:" +
                        "\n  market asset swap spread: " + zeroCpnBondMktAssetSwapSpread1 +
                        "\n  par asset swap spread:    " + zeroCpnBondParAssetSwapSpread1 +
                        "\n  error:                    " + error7 +
                        "\n  tolerance:                " + tolerance);

             // Zero Coupon bond (Isin: IT0001200390 ISPIM 0 02/17/28)
             // maturity occurs on a business day

             Date zeroCpnBondStartDate2 = new Date(17,Month.February,1998);
             Date zeroCpnBondMaturityDate2 = new Date(17,Month.February,2028);
             Date zerocpbondRedemption2 = bondCalendar.adjust(zeroCpnBondMaturityDate2,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg2 = new List<CashFlow>{new SimpleCashFlow(100.0, zerocpbondRedemption2)};
             Bond zeroCpnBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  zeroCpnBondMaturityDate2, zeroCpnBondStartDate2, zeroCpnBondLeg2);
             zeroCpnBond2.setPricingEngine(bondEngine);

             // double zeroCpnBondPrice2 = zeroCpnBond2.cleanPrice();
             // market price observed on 12th June 2007
             double zeroCpnBondMktPrice2 = 35.160 ;
             double zeroCpnBondMktFullPrice2 =
            zeroCpnBondMktPrice2+zeroCpnBond2.accruedAmount();
             AssetSwap zeroCpnBondParAssetSwap2 = new AssetSwap(payFixedRate,zeroCpnBond2,
                                          zeroCpnBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             zeroCpnBondParAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondParAssetSwapSpread2 = zeroCpnBondParAssetSwap2.fairSpread();
             AssetSwap zeroCpnBondMktAssetSwap2 = new AssetSwap(payFixedRate,zeroCpnBond2,
                                          zeroCpnBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             zeroCpnBondMktAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondMktAssetSwapSpread2 = zeroCpnBondMktAssetSwap2.fairSpread();
             double error8 =
            Math.Abs(zeroCpnBondMktAssetSwapSpread2-
                     100*zeroCpnBondParAssetSwapSpread2/zeroCpnBondMktFullPrice2);

             if (error8>tolerance)
            Assert.Fail("wrong asset swap spreads for zero cpn bond:" +
                        "\n  market asset swap spread: " + zeroCpnBondMktAssetSwapSpread2 +
                        "\n  par asset swap spread:    " + zeroCpnBondParAssetSwapSpread2 +
                        "\n  error:                    " + error8 +
                        "\n  tolerance:                " + tolerance);
        }
Exemplo n.º 42
0
        public void testParity()
        {
            // Testing yoy inflation cap/floor parity...

             CommonVars vars = new CommonVars();

             int[] lengths = { 1, 2, 3, 5, 7, 10, 15, 20 };
             // vol is low ...
             double[] strikes = { 0.0, 0.025, 0.029, 0.03, 0.031, 0.035, 0.07 };
             // yoy inflation vol is generally very low
             double[] vols = { 0.001, 0.005, 0.010, 0.015, 0.020 };

             // cap-floor-swap parity is model-independent
             for (int whichPricer = 0; whichPricer < 3; whichPricer++) {
                  for (int i=0; i<lengths.Length; i++) {
                        for (int j=0; j<strikes.Length; j++) {
                             for (int k=0; k<vols.Length; k++) {

                                  List<CashFlow> leg = vars.makeYoYLeg(vars.evaluationDate,lengths[i]);

                                  Instrument cap = vars.makeYoYCapFloor(CapFloorType.Cap,
                                                            leg, strikes[j], vols[k], whichPricer);

                                  Instrument floor = vars.makeYoYCapFloor(CapFloorType.Floor,
                                                            leg, strikes[j], vols[k], whichPricer);

                                  Date from = vars.nominalTS.link.referenceDate();
                                  Date to = from+new Period(lengths[i],TimeUnit.Years);
                                  Schedule yoySchedule = new MakeSchedule().from(from).to(to)
                                  .withTenor(new Period(1,TimeUnit.Years))
                                  .withConvention(BusinessDayConvention.Unadjusted)
                                  .withCalendar(new UnitedKingdom()).backwards().value();

                                  YearOnYearInflationSwap swap = new YearOnYearInflationSwap
                                      (YearOnYearInflationSwap.Type.Payer,
                                        1000000.0,
                                        yoySchedule,//fixed schedule, but same as yoy
                                        strikes[j],
                                        vars.dc,
                                        yoySchedule,
                                        vars.iir,
                                        vars.observationLag,
                                        0.0,        //spread on index
                                        vars.dc,
                                        new UnitedKingdom());

                                  Handle<YieldTermStructure> hTS = new Handle<YieldTermStructure>(vars.nominalTS);
                                  IPricingEngine sppe = new DiscountingSwapEngine(hTS);
                                  swap.setPricingEngine(sppe);

                                  // N.B. nominals are 10e6
                                  if (Math.Abs((cap.NPV()-floor.NPV()) - swap.NPV()) > 1.0e-6) {
                                        Assert.Fail(
                                                 "put/call parity violated:\n"
                                                 + "    length:      " + lengths[i] + " years\n"
                                                 + "    volatility:  " + vols[k] + "\n"
                                                 + "    strike:      " + strikes[j] + "\n"
                                                 + "    cap value:   " + cap.NPV() + "\n"
                                                 + "    floor value: " + floor.NPV() + "\n"
                                                 + "    swap value:  " + swap.NPV());
                                  }
                             }
                        }
                  }
             }
             // remove circular refernce
             vars.hy.linkTo(new YoYInflationTermStructure());
        }
Exemplo n.º 43
0
        public void testConsistency()
        {
            // Testing consistency between yoy inflation cap,floor and collar...
            CommonVars vars = new CommonVars();

            int[] lengths = { 1, 2, 3, 5, 7, 10, 15, 20 };
            double[] cap_rates = { 0.01, 0.025, 0.029, 0.03, 0.031, 0.035, 0.07 };
            double[] floor_rates = { 0.01, 0.025, 0.029, 0.03, 0.031, 0.035, 0.07 };
            double[] vols = { 0.001, 0.005, 0.010, 0.015, 0.020 };

            for (int whichPricer = 0; whichPricer < 3; whichPricer++)
            {
                for (int i=0; i<lengths.Length; i++)
                {
                    for (int j=0; j<cap_rates.Length; j++)
                    {
                        for (int k=0; k<floor_rates.Length; k++)
                        {
                            for (int l=0; l<vols.Length; l++)
                            {

                                List<CashFlow> leg = vars.makeYoYLeg(vars.evaluationDate,lengths[i]);

                                YoYInflationCapFloor cap = vars.makeYoYCapFloor(CapFloorType.Cap,
                                           leg, cap_rates[j], vols[l], whichPricer);

                                YoYInflationCapFloor floor = vars.makeYoYCapFloor(CapFloorType.Floor,
                                           leg, floor_rates[k], vols[l], whichPricer);

                                YoYInflationCollar collar = new YoYInflationCollar(leg,new List<double>(){cap_rates[j]},
                                  new List<double>(){floor_rates[k]});

                                collar.setPricingEngine(vars.makeEngine(vols[l], whichPricer));

                                if (Math.Abs((cap.NPV()-floor.NPV())-collar.NPV()) > 1e-6)
                                {
                                    Assert.Fail(
                                   "inconsistency between cap, floor and collar:\n"
                                   + "    length:       " + lengths[i] + " years\n"
                                   + "    volatility:   " +  "\n"
                                   + "    cap value:    " + cap.NPV()
                                   + " at strike: " + "\n"
                                   + "    floor value:  " + floor.NPV()
                                   + " at strike: " +  "\n"
                                   + "    collar value: " + collar.NPV());

                                }
                                // test re-composition by optionlets, N.B. ONE per year
                                double capletsNPV = 0.0;
                                List<YoYInflationCapFloor> caplets = new List<YoYInflationCapFloor>();
                                for (int m=0; m<lengths[i]*1; m++)
                                {
                                    caplets.Add(cap.optionlet(m));
                                    caplets[m].setPricingEngine(vars.makeEngine(vols[l], whichPricer));
                                    capletsNPV += caplets[m].NPV();
                                }

                                if (Math.Abs(cap.NPV() - capletsNPV) > 1e-6)
                                {
                                    Assert.Fail(
                                    "sum of caplet NPVs does not equal cap NPV:\n"
                                    + "    length:       " + lengths[i] + " years\n"
                                    + "    volatility:   " +  "\n"
                                    + "    cap value:    " + cap.NPV()
                                    + " at strike: " +  "\n"
                                    + "    sum of caplets value:  " + capletsNPV
                                    + " at strike (first): " + caplets[0].capRates()[0] + "\n"
                                    );
                                }

                                double floorletsNPV = 0.0;
                                List<YoYInflationCapFloor>  floorlets = new List<YoYInflationCapFloor>();
                                for (int m=0; m<lengths[i]*1; m++)
                                {
                                    floorlets.Add(floor.optionlet(m));
                                    floorlets[m].setPricingEngine(vars.makeEngine(vols[l], whichPricer));
                                    floorletsNPV += floorlets[m].NPV();
                                }

                                if (Math.Abs(floor.NPV() - floorletsNPV) > 1e-6)
                                {
                                    Assert.Fail(
                                    "sum of floorlet NPVs does not equal floor NPV:\n"
                                    + "    length:       " + lengths[i] + " years\n"
                                    + "    volatility:   " +  "\n"
                                    + "    cap value:    " + floor.NPV()
                                    + " at strike: " + floor_rates[j] + "\n"
                                    + "    sum of floorlets value:  " + floorletsNPV
                                    + " at strike (first): " + floorlets[0].floorRates()[0] + "\n"
                                    );
                                }

                                double collarletsNPV = 0.0;
                                List<YoYInflationCapFloor>  collarlets = new List<YoYInflationCapFloor>();
                                for (int m=0; m<lengths[i]*1; m++)
                                {
                                    collarlets.Add(collar.optionlet(m));
                                    collarlets[m].setPricingEngine(vars.makeEngine(vols[l], whichPricer));
                                    collarletsNPV += collarlets[m].NPV();
                                }

                                if (Math.Abs(collar.NPV() - collarletsNPV) > 1e-6)
                                {
                                    Assert.Fail(
                                    "sum of collarlet NPVs does not equal floor NPV:\n"
                                    + "    length:       " + lengths[i] + " years\n"
                                    + "    volatility:   " + vols[l] + "\n"
                                    + "    cap value:    " + collar.NPV()
                                    + " at strike floor: " + floor_rates[j]
                                    + " at strike cap: " + cap_rates[j] + "\n"
                                    + "    sum of collarlets value:  " + collarletsNPV
                                    + " at strike floor (first): " + collarlets[0].floorRates()[0]
                                    + " at strike cap (first): " + collarlets[0].capRates()[0] + "\n"
                                    );
                            }
                            }
                        }
                    }
                }
            } // pricer loop
            // remove circular refernce
            vars.hy.linkTo(new YoYInflationTermStructure());
        }
Exemplo n.º 44
0
        public void testSpreadTreatment()
        {
            //"Testing swaption treatment of spread...";

            CommonVars vars = new CommonVars();

            double[] spreads = { -0.002, -0.001, 0.0, 0.001, 0.002 };

            for (int i=0; i<exercises.Length; i++) {
                for (int j=0; j<lengths.Length ; j++) {
                    for (int k=0; k<type.Length ; k++) {
                        Date exerciseDate = vars.calendar.advance(vars.today,
                                                                  exercises[i]);
                        Date startDate =
                            vars.calendar.advance(exerciseDate,
                                                  vars.settlementDays,TimeUnit.Days);
                        for (int l=0; l<spreads.Length ; l++) {
                            VanillaSwap swap =
                                new MakeVanillaSwap(lengths[j], vars.index, 0.06)
                                        .withEffectiveDate(startDate)
                                        .withFloatingLegSpread(spreads[l])
                                        .withType(type[k]);
                            // FLOATING_POINT_EXCEPTION
                            double correction = spreads[l] *
                                                swap.floatingLegBPS() /
                                                swap.fixedLegBPS();
                            VanillaSwap equivalentSwap =
                                new MakeVanillaSwap(lengths[j], vars.index, 0.06+correction)
                                        .withEffectiveDate(startDate)
                                        .withFloatingLegSpread(0.0)
                                        .withType(type[k]);
                            Swaption swaption1 =
                                vars.makeSwaption(swap,exerciseDate,0.20);
                            Swaption swaption2 =
                                vars.makeSwaption(equivalentSwap,exerciseDate,0.20);
                            Swaption swaption1_cash =
                                vars.makeSwaption(swap,exerciseDate,0.20,
                                                  Settlement.Type.Cash);
                            Swaption swaption2_cash =
                                vars.makeSwaption(equivalentSwap,exerciseDate,0.20,
                                                  Settlement.Type.Cash);
                            if (Math.Abs(swaption1.NPV()-swaption2.NPV()) > 1.0e-6)
                                Assert.Fail("wrong spread treatment:" +
                                    "\nexercise: " + exerciseDate +
                                    "\nlength:   " + lengths[j] +
                                    "\ntype      " + type[k] +
                                    "\nspread:   " + spreads[l] +
                                    "\noriginal swaption value:   " + swaption1.NPV() +
                                    "\nequivalent swaption value: " + swaption2.NPV());

                            if (Math.Abs(swaption1_cash.NPV()-swaption2_cash.NPV()) > 1.0e-6)
                                Assert.Fail("wrong spread treatment:" +
                                    "\nexercise date: " + exerciseDate +
                                    "\nlength: " + lengths[j] +
                                    //"\npay " + (type[k] ? "fixed" : "floating") +
                                    "\nspread: " + spreads[l] +
                                    "\nvalue of original swaption:   "  + swaption1_cash.NPV() +
                                    "\nvalue of equivalent swaption: "  + swaption2_cash.NPV());
                        }
                    }
                }
            }
        }
Exemplo n.º 45
0
        public void testMarketASWSpread()
        {
            // Testing relationship between market asset swap and par asset swap...
             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;
             int fixingDays = 2;
             bool payFixedRate = true;
             bool parAssetSwap = true;
             bool mktAssetSwap = false;
             bool inArrears = false;

             // Fixed Underlying bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day

             Schedule fixedBondSchedule1 = new Schedule(new Date(4,Month.January,2005),
                                    new Date(4,Month.January,2037),
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             Bond fixedBond1 = new FixedRateBond(settlementDays, vars.faceAmount, fixedBondSchedule1,
                           new List<double>{0.04},
                           new ActualActual(ActualActual.Convention.ISDA),BusinessDayConvention.Following,
                           100.0, new Date(4,Month.January,2005));

             IPricingEngine bondEngine = new DiscountingBondEngine(vars.termStructure);
             IPricingEngine swapEngine = new DiscountingSwapEngine(vars.termStructure);
             fixedBond1.setPricingEngine(bondEngine);

             double fixedBondMktPrice1 = 89.22 ; // market price observed on 7th June 2007
             double fixedBondMktFullPrice1=fixedBondMktPrice1+fixedBond1.accruedAmount();
             AssetSwap fixedBondParAssetSwap1 = new AssetSwap(payFixedRate,
                                          fixedBond1, fixedBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedBondParAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondParAssetSwapSpread1 = fixedBondParAssetSwap1.fairSpread();
             AssetSwap fixedBondMktAssetSwap1 = new AssetSwap(payFixedRate,
                                          fixedBond1, fixedBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             fixedBondMktAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondMktAssetSwapSpread1 = fixedBondMktAssetSwap1.fairSpread();

             double tolerance = 1.0e-13;
             double error1 = Math.Abs(fixedBondMktAssetSwapSpread1- 100*fixedBondParAssetSwapSpread1/fixedBondMktFullPrice1);

             if (error1>tolerance) {
            Assert.Fail("wrong asset swap spreads for fixed bond:" +
                        "\n  market ASW spread: " + fixedBondMktAssetSwapSpread1 +
                        "\n  par ASW spread:    " + fixedBondParAssetSwapSpread1 +
                        "\n  error:             " + error1 +
                        "\n  tolerance:         " + tolerance);
             }

             // Fixed Underlying bond (Isin: IT0006527060 IBRD 5 02/05/19)
             // maturity occurs on a business day

             Schedule fixedBondSchedule2 = new Schedule(new Date(5,Month.February,2005),
                                    new Date(5,Month.February,2019),
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             Bond fixedBond2 = new FixedRateBond(settlementDays, vars.faceAmount, fixedBondSchedule2,
                           new List<double>{ 0.05},
                           new Thirty360(Thirty360.Thirty360Convention.BondBasis), BusinessDayConvention.Following,
                           100.0, new Date(5,Month.February,2005));

             fixedBond2.setPricingEngine(bondEngine);

             double fixedBondMktPrice2 = 99.98 ; // market price observed on 7th June 2007
             double fixedBondMktFullPrice2=fixedBondMktPrice2+fixedBond2.accruedAmount();
             AssetSwap fixedBondParAssetSwap2 = new AssetSwap(payFixedRate,
                                          fixedBond2, fixedBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedBondParAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondParAssetSwapSpread2 = fixedBondParAssetSwap2.fairSpread();
             AssetSwap fixedBondMktAssetSwap2 = new AssetSwap(payFixedRate,
                                          fixedBond2, fixedBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             fixedBondMktAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondMktAssetSwapSpread2 = fixedBondMktAssetSwap2.fairSpread();
             double error2 = Math.Abs(fixedBondMktAssetSwapSpread2-
                     100*fixedBondParAssetSwapSpread2/fixedBondMktFullPrice2);

             if (error2>tolerance) {
            Assert.Fail("wrong asset swap spreads for fixed bond:" +
                        "\n  market ASW spread: " + fixedBondMktAssetSwapSpread2 +
                        "\n  par ASW spread:    " + fixedBondParAssetSwapSpread2 +
                        "\n  error:             " + error2 +
                        "\n  tolerance:         " + tolerance);
             }

             // FRN Underlying bond (Isin: IT0003543847 ISPIM 0 09/29/13)
             // maturity doesn't occur on a business day

             Schedule floatingBondSchedule1 = new Schedule( new Date(29,Month.September,2003),
                                       new Date(29,Month.September,2013),
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                       DateGeneration.Rule.Backward, false);

             Bond floatingBond1 = new FloatingRateBond(settlementDays, vars.faceAmount,
                              floatingBondSchedule1,
                              vars.iborIndex, new Actual360(),
                              BusinessDayConvention.Following, fixingDays,
                              new List<double>{1}, new List<double>{0.0056},
                              new List<double>(), new List<double>(),
                              inArrears,
                              100.0, new Date(29,Month.September,2003));

             floatingBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond1.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(27,Month.March,2007), 0.0402);
             // market price observed on 7th June 2007
             double floatingBondMktPrice1 = 101.64 ;
             double floatingBondMktFullPrice1 = floatingBondMktPrice1+floatingBond1.accruedAmount();
             AssetSwap floatingBondParAssetSwap1 = new AssetSwap(payFixedRate,
                                             floatingBond1, floatingBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingBondParAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondParAssetSwapSpread1 = floatingBondParAssetSwap1.fairSpread();
             AssetSwap floatingBondMktAssetSwap1= new AssetSwap(payFixedRate,
                                             floatingBond1, floatingBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             mktAssetSwap);
             floatingBondMktAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondMktAssetSwapSpread1 = floatingBondMktAssetSwap1.fairSpread();
             double error3 = Math.Abs(floatingBondMktAssetSwapSpread1-
                     100*floatingBondParAssetSwapSpread1/floatingBondMktFullPrice1);

             if (error3>tolerance) {
            Assert.Fail("wrong asset swap spreads for floating bond:" +
                        "\n  market ASW spread: " + floatingBondMktAssetSwapSpread1 +
                        "\n  par ASW spread:    " + floatingBondParAssetSwapSpread1 +
                        "\n  error:             " + error3 +
                        "\n  tolerance:         " + tolerance);
             }

             // FRN Underlying bond (Isin: XS0090566539 COE 0 09/24/18)
             // maturity occurs on a business day

             Schedule floatingBondSchedule2 = new Schedule( new Date(24,Month.September,2004),
                                       new Date(24,Month.September,2018),
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                       DateGeneration.Rule.Backward, false);
             Bond floatingBond2 = new FloatingRateBond(settlementDays, vars.faceAmount,
                              floatingBondSchedule2,
                              vars.iborIndex, new Actual360(),
                              BusinessDayConvention.ModifiedFollowing, fixingDays,
                              new List<double>{1}, new List<double>{0.0025},
                              new List<double>(), new List<double>(),
                              inArrears,
                              100.0, new Date(24,Month.September,2004));

             floatingBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond2.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(22,Month.March,2007), 0.04013);
             // market price observed on 7th June 2007
             double floatingBondMktPrice2 = 101.248 ;
             double floatingBondMktFullPrice2 = floatingBondMktPrice2+floatingBond2.accruedAmount();
             AssetSwap floatingBondParAssetSwap2= new AssetSwap(payFixedRate,
                                             floatingBond2, floatingBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingBondParAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondParAssetSwapSpread2 = floatingBondParAssetSwap2.fairSpread();
             AssetSwap floatingBondMktAssetSwap2 = new AssetSwap(payFixedRate,
                                             floatingBond2, floatingBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             mktAssetSwap);
             floatingBondMktAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondMktAssetSwapSpread2 = floatingBondMktAssetSwap2.fairSpread();
             double error4 = Math.Abs(floatingBondMktAssetSwapSpread2-
                     100*floatingBondParAssetSwapSpread2/floatingBondMktFullPrice2);

             if (error4>tolerance) {
            Assert.Fail("wrong asset swap spreads for floating bond:" +
                        "\n  market ASW spread: " + floatingBondMktAssetSwapSpread2 +
                        "\n  par ASW spread:    " + floatingBondParAssetSwapSpread2 +
                        "\n  error:             " + error4 +
                        "\n  tolerance:         " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0228052402 CRDIT 0 8/22/20)
             // maturity doesn't occur on a business day

             Schedule cmsBondSchedule1 = new Schedule( new Date(22,Month.August,2005),
                                 new Date(22,Month.August,2020),
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             Bond cmsBond1 = new CmsRateBond(settlementDays, vars.faceAmount, cmsBondSchedule1,
                        vars.swapIndex, new Thirty360(),
                        BusinessDayConvention.Following, fixingDays,
                        new List<double>{1.0}, new List<double>{0.0},
                        new List<double>{0.055}, new List<double>{0.025},
                        inArrears,
                        100.0, new Date(22,Month.August,2005));

             cmsBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond1.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(18,Month.August,2006), 0.04158);
             double cmsBondMktPrice1 = 88.45 ; // market price observed on 7th June 2007
             double cmsBondMktFullPrice1 = cmsBondMktPrice1+cmsBond1.accruedAmount();
             AssetSwap cmsBondParAssetSwap1 = new AssetSwap(payFixedRate,
                                       cmsBond1, cmsBondMktPrice1,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             cmsBondParAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondParAssetSwapSpread1 = cmsBondParAssetSwap1.fairSpread();
             AssetSwap cmsBondMktAssetSwap1 = new AssetSwap(payFixedRate,
                                       cmsBond1, cmsBondMktPrice1,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       mktAssetSwap);
             cmsBondMktAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondMktAssetSwapSpread1 = cmsBondMktAssetSwap1.fairSpread();
             double error5 = Math.Abs(cmsBondMktAssetSwapSpread1-
                     100*cmsBondParAssetSwapSpread1/cmsBondMktFullPrice1);

             if (error5>tolerance) {
            Assert.Fail("wrong asset swap spreads for cms bond:" +
                        "\n  market ASW spread: " + cmsBondMktAssetSwapSpread1 +
                        "\n  par ASW spread:    " + cmsBondParAssetSwapSpread1 +
                        "\n  error:             " + error5 +
                        "\n  tolerance:         " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0218766664 ISPIM 0 5/6/15)
             // maturity occurs on a business day

             Schedule cmsBondSchedule2 = new Schedule(new Date(06,Month.May,2005),
                                 new Date(06,Month.May,2015),
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             Bond cmsBond2 = new CmsRateBond(settlementDays, vars.faceAmount, cmsBondSchedule2,
                        vars.swapIndex, new Thirty360(),
                        BusinessDayConvention.Following, fixingDays,
                        new List<double>{0.84}, new List<double>{0.0},
                        new List<double>(), new List<double>(),
                        inArrears,
                        100.0, new Date(06,Month.May,2005));

             cmsBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond2.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(04,Month.May,2006), 0.04217);
             double cmsBondMktPrice2 = 94.08 ; // market price observed on 7th June 2007
             double cmsBondMktFullPrice2 = cmsBondMktPrice2+cmsBond2.accruedAmount();
             AssetSwap cmsBondParAssetSwap2 = new AssetSwap(payFixedRate,
                                       cmsBond2, cmsBondMktPrice2,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             cmsBondParAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondParAssetSwapSpread2 = cmsBondParAssetSwap2.fairSpread();
             AssetSwap cmsBondMktAssetSwap2 = new AssetSwap(payFixedRate,
                                       cmsBond2, cmsBondMktPrice2,
                                       vars.iborIndex, vars.spread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       mktAssetSwap);
             cmsBondMktAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondMktAssetSwapSpread2 = cmsBondMktAssetSwap2.fairSpread();
             double error6 = Math.Abs(cmsBondMktAssetSwapSpread2-
                     100*cmsBondParAssetSwapSpread2/cmsBondMktFullPrice2);

             if (error6>tolerance) {
            Assert.Fail("wrong asset swap spreads for cms bond:" +
                        "\n  market ASW spread: " + cmsBondMktAssetSwapSpread2 +
                        "\n  par ASW spread:    " + cmsBondParAssetSwapSpread2 +
                        "\n  error:             " + error6 +
                        "\n  tolerance:         " + tolerance);
             }

             // Zero Coupon bond (Isin: DE0004771662 IBRD 0 12/20/15)
             // maturity doesn't occur on a business day

             Bond zeroCpnBond1 = new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                          new  Date(20,Month.December,2015), BusinessDayConvention.Following,
                           100.0, new Date(19,Month.December,1985));

             zeroCpnBond1.setPricingEngine(bondEngine);

             // market price observed on 12th June 2007
             double zeroCpnBondMktPrice1 = 70.436 ;
             double zeroCpnBondMktFullPrice1 = zeroCpnBondMktPrice1+zeroCpnBond1.accruedAmount();
             AssetSwap zeroCpnBondParAssetSwap1 = new AssetSwap(payFixedRate,zeroCpnBond1,
                                          zeroCpnBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             zeroCpnBondParAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondParAssetSwapSpread1 = zeroCpnBondParAssetSwap1.fairSpread();
             AssetSwap zeroCpnBondMktAssetSwap1 = new AssetSwap(payFixedRate,zeroCpnBond1,
                                          zeroCpnBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             zeroCpnBondMktAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondMktAssetSwapSpread1 = zeroCpnBondMktAssetSwap1.fairSpread();
             double error7 = Math.Abs(zeroCpnBondMktAssetSwapSpread1-
                     100*zeroCpnBondParAssetSwapSpread1/zeroCpnBondMktFullPrice1);

             if (error7>tolerance) {
            Assert.Fail("wrong asset swap spreads for zero cpn bond:" +
                        "\n  market ASW spread: " + zeroCpnBondMktAssetSwapSpread1 +
                        "\n  par ASW spread:    " + zeroCpnBondParAssetSwapSpread1 +
                        "\n  error:             " + error7 +
                        "\n  tolerance:         " + tolerance);
             }

             // Zero Coupon bond (Isin: IT0001200390 ISPIM 0 02/17/28)
             // maturity occurs on a business day

             Bond zeroCpnBond2 = new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                           new Date(17,Month.February,2028),
                           BusinessDayConvention.Following,
                           100.0, new Date(17,Month.February,1998));

             zeroCpnBond2.setPricingEngine(bondEngine);

             // Real zeroCpnBondPrice2 = zeroCpnBond2->cleanPrice();

             // market price observed on 12th June 2007
             double zeroCpnBondMktPrice2 = 35.160 ;
             double zeroCpnBondMktFullPrice2 = zeroCpnBondMktPrice2+zeroCpnBond2.accruedAmount();
             AssetSwap zeroCpnBondParAssetSwap2 = new AssetSwap(payFixedRate,zeroCpnBond2,
                                          zeroCpnBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             zeroCpnBondParAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondParAssetSwapSpread2 = zeroCpnBondParAssetSwap2.fairSpread();
             AssetSwap zeroCpnBondMktAssetSwap2 = new AssetSwap(payFixedRate,zeroCpnBond2,
                                          zeroCpnBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          mktAssetSwap);
             zeroCpnBondMktAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondMktAssetSwapSpread2 = zeroCpnBondMktAssetSwap2.fairSpread();
             double error8 = Math.Abs(zeroCpnBondMktAssetSwapSpread2-
                     100*zeroCpnBondParAssetSwapSpread2/zeroCpnBondMktFullPrice2);

             if (error8>tolerance) {
            Assert.Fail("wrong asset swap spreads for zero cpn bond:" +
                        "\n  market ASW spread: " + zeroCpnBondMktAssetSwapSpread2 +
                        "\n  par ASW spread:    " + zeroCpnBondParAssetSwapSpread2 +
                        "\n  error:             " + error8 +
                        "\n  tolerance:         " + tolerance);
             }
        }
Exemplo n.º 46
0
        public void testConsistency()
        {
            // Testing consistency between fair price and fair spread...");
             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;

             // Fixed Underlying bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day

             Schedule bondSchedule = new Schedule(new Date(4, Month.January, 2005),
                                              new Date(4, Month.January, 2037),
                                              new Period(Frequency.Annual), bondCalendar,
                                              BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                              DateGeneration.Rule.Backward, false);
             Bond bond = new FixedRateBond(settlementDays, vars.faceAmount,
                                       bondSchedule, new List<double>() { 0.04 },
                                       new ActualActual(ActualActual.Convention.ISDA),
                                       BusinessDayConvention.Following,
                                       100.0, new Date(4, Month.January, 2005));

             bool payFixedRate = true;
             double bondPrice = 95.0;

             bool isPar = true;

             AssetSwap parAssetSwap = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, vars.spread,
                                                null, vars.iborIndex.dayCounter(), isPar);

             IPricingEngine swapEngine = new DiscountingSwapEngine(vars.termStructure, true, bond.settlementDate(),
                                                               Settings.evaluationDate());

             parAssetSwap.setPricingEngine(swapEngine);
             double fairCleanPrice = parAssetSwap.fairCleanPrice();
             double fairSpread = parAssetSwap.fairSpread();

             double tolerance = 1.0e-13;

             AssetSwap assetSwap2 = new AssetSwap(payFixedRate, bond, fairCleanPrice, vars.iborIndex, vars.spread,
                                              null, vars.iborIndex.dayCounter(), isPar);

             assetSwap2.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap2.NPV()) > tolerance)
             {
            Assert.Fail("npar asset swap fair clean price doesn't zero the NPV: " +
                        "\n  clean price:      " + bondPrice +
                        "\n  fair clean price: " + fairCleanPrice +
                        "\n  NPV:              " + assetSwap2.NPV() +
                        "\n  tolerance:        " + tolerance);
             }
             if (Math.Abs(assetSwap2.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + fairCleanPrice +
                       "\n  fair clean price:  " + assetSwap2.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap2.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap2.fairSpread() - vars.spread) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + vars.spread +
                       "\n  fair spread:  " + assetSwap2.fairSpread() +
                       "\n  NPV:          " + assetSwap2.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             AssetSwap assetSwap3 = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, fairSpread,
                                              null, vars.iborIndex.dayCounter(), isPar);

             assetSwap3.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap3.NPV()) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't zero the NPV: " +
                       "\n  spread:      " + vars.spread +
                       "\n  fair spread: " + fairSpread +
                       "\n  NPV:         " + assetSwap3.NPV() +
                       "\n  tolerance:   " + tolerance);
             }
             if (Math.Abs(assetSwap3.fairCleanPrice() - bondPrice) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + bondPrice +
                       "\n  fair clean price:  " + assetSwap3.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap3.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap3.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't equal input spread at  zero NPV: " +
                       "\n  input spread: " + fairSpread +
                       "\n  fair spread:  " + assetSwap3.fairSpread() +
                       "\n  NPV:          " + assetSwap3.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             // let's change the npv date
             swapEngine = new DiscountingSwapEngine(vars.termStructure, true, bond.settlementDate(), bond.settlementDate());

             parAssetSwap.setPricingEngine(swapEngine);
             // fair clean price and fair spread should not change
             if (Math.Abs(parAssetSwap.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price changed with NpvDate:" +
                       "\n expected clean price: " + fairCleanPrice +
                       "\n fair clean price:     " + parAssetSwap.fairCleanPrice() +
                       "\n tolerance:            " + tolerance);
             }
             if (Math.Abs(parAssetSwap.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread changed with NpvDate:" +
                       "\n  expected spread: " + fairSpread +
                       "\n  fair spread:     " + parAssetSwap.fairSpread() +
                       "\n  tolerance:       " + tolerance);
             }

             assetSwap2 = new AssetSwap(payFixedRate, bond, fairCleanPrice, vars.iborIndex, vars.spread,
                                    null, vars.iborIndex.dayCounter(), isPar);
             assetSwap2.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap2.NPV()) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price doesn't zero the NPV: " +
                       "\n  clean price:      " + bondPrice +
                       "\n  fair clean price: " + fairCleanPrice +
                       "\n  NPV:              " + assetSwap2.NPV() +
                       "\n  tolerance:        " + tolerance);
             }
             if (Math.Abs(assetSwap2.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + fairCleanPrice +
                       "\n  fair clean price:  " + assetSwap2.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap2.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap2.fairSpread() - vars.spread) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + vars.spread +
                       "\n  fair spread:  " + assetSwap2.fairSpread() +
                       "\n  NPV:          " + assetSwap2.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             assetSwap3 = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, fairSpread,
                                    null, vars.iborIndex.dayCounter(), isPar);
             assetSwap3.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap3.NPV()) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't zero the NPV: " +
                       "\n  spread:      " + vars.spread +
                       "\n  fair spread: " + fairSpread +
                       "\n  NPV:         " + assetSwap3.NPV() +
                       "\n  tolerance:   " + tolerance);
             }
             if (Math.Abs(assetSwap3.fairCleanPrice() - bondPrice) > tolerance)
             {
            Assert.Fail("\npar asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + bondPrice +
                       "\n  fair clean price:  " + assetSwap3.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap3.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap3.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\npar asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + fairSpread +
                       "\n  fair spread:  " + assetSwap3.fairSpread() +
                       "\n  NPV:          " + assetSwap3.NPV() +
                       "\n  tolerance:    " + tolerance);

             }

             // now market asset swap
             isPar = false;
             AssetSwap mktAssetSwap = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, vars.spread,
                                                null, vars.iborIndex.dayCounter(), isPar);

             swapEngine = new DiscountingSwapEngine(vars.termStructure, true, bond.settlementDate(),
                                                Settings.evaluationDate());

             mktAssetSwap.setPricingEngine(swapEngine);
             fairCleanPrice = mktAssetSwap.fairCleanPrice();
             fairSpread = mktAssetSwap.fairSpread();

             AssetSwap assetSwap4 = new AssetSwap(payFixedRate, bond, fairCleanPrice, vars.iborIndex, vars.spread,
                                              null, vars.iborIndex.dayCounter(), isPar);
             assetSwap4.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap4.NPV()) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't zero the NPV: " +
                       "\n  clean price:      " + bondPrice +
                       "\n  fair clean price: " + fairCleanPrice +
                       "\n  NPV:              " + assetSwap4.NPV() +
                       "\n  tolerance:        " + tolerance);
             }
             if (Math.Abs(assetSwap4.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + fairCleanPrice +
                       "\n  fair clean price:  " + assetSwap4.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap4.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap4.fairSpread() - vars.spread) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + vars.spread +
                       "\n  fair spread:  " + assetSwap4.fairSpread() +
                       "\n  NPV:          " + assetSwap4.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             AssetSwap assetSwap5 = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, fairSpread,
                                              null, vars.iborIndex.dayCounter(), isPar);
             assetSwap5.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap5.NPV()) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't zero the NPV: " +
                       "\n  spread:      " + vars.spread +
                       "\n  fair spread: " + fairSpread +
                       "\n  NPV:         " + assetSwap5.NPV() +
                       "\n  tolerance:   " + tolerance);
             }
             if (Math.Abs(assetSwap5.fairCleanPrice() - bondPrice) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + bondPrice +
                       "\n  fair clean price:  " + assetSwap5.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap5.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap5.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + fairSpread +
                       "\n  fair spread:  " + assetSwap5.fairSpread() +
                       "\n  NPV:          " + assetSwap5.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             // let's change the npv date
             swapEngine = new DiscountingSwapEngine(vars.termStructure, true, bond.settlementDate(), bond.settlementDate());
             mktAssetSwap.setPricingEngine(swapEngine);

             // fair clean price and fair spread should not change
             if (Math.Abs(mktAssetSwap.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price changed with NpvDate:" +
                       "\n  expected clean price: " + fairCleanPrice +
                       "\n  fair clean price:  " + mktAssetSwap.fairCleanPrice() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(mktAssetSwap.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread changed with NpvDate:" +
                       "\n  expected spread: " + fairSpread +
                       "\n  fair spread:  " + mktAssetSwap.fairSpread() +
                       "\n  tolerance:    " + tolerance);
             }

             assetSwap4 = new AssetSwap(payFixedRate, bond, fairCleanPrice, vars.iborIndex, vars.spread,
                                    null, vars.iborIndex.dayCounter(), isPar);
             assetSwap4.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap4.NPV()) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't zero the NPV: " +
                       "\n  clean price:      " + bondPrice +
                       "\n  fair clean price: " + fairCleanPrice +
                       "\n  NPV:              " + assetSwap4.NPV() +
                       "\n  tolerance:        " + tolerance);
             }
             if (Math.Abs(assetSwap4.fairCleanPrice() - fairCleanPrice) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + fairCleanPrice +
                       "\n  fair clean price:  " + assetSwap4.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap4.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap4.fairSpread() - vars.spread) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + vars.spread +
                       "\n  fair spread:  " + assetSwap4.fairSpread() +
                       "\n  NPV:          " + assetSwap4.NPV() +
                       "\n  tolerance:    " + tolerance);
             }

             assetSwap5 = new AssetSwap(payFixedRate, bond, bondPrice, vars.iborIndex, fairSpread,
                                    null, vars.iborIndex.dayCounter(), isPar);
             assetSwap5.setPricingEngine(swapEngine);
             if (Math.Abs(assetSwap5.NPV()) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't zero the NPV: " +
                       "\n  spread:      " + vars.spread +
                       "\n  fair spread: " + fairSpread +
                       "\n  NPV:         " + assetSwap5.NPV() +
                       "\n  tolerance:   " + tolerance);
             }
             if (Math.Abs(assetSwap5.fairCleanPrice() - bondPrice) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair clean price doesn't equal input clean price at zero NPV: " +
                       "\n  input clean price: " + bondPrice +
                       "\n  fair clean price:  " + assetSwap5.fairCleanPrice() +
                       "\n  NPV:               " + assetSwap5.NPV() +
                       "\n  tolerance:         " + tolerance);
             }
             if (Math.Abs(assetSwap5.fairSpread() - fairSpread) > tolerance)
             {
            Assert.Fail("\nmarket asset swap fair spread doesn't equal input spread at zero NPV: " +
                       "\n  input spread: " + fairSpread +
                       "\n  fair spread:  " + assetSwap5.fairSpread() +
                       "\n  NPV:          " + assetSwap5.NPV() +
                       "\n  tolerance:    " + tolerance);
             }
        }
Exemplo n.º 47
0
        public void testSpecializedBondVsGenericBondUsingAsw()
        {
            // Testing asset-swap prices and spreads for specialized bond against equivalent generic bond...
             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;
             int fixingDays = 2;
             bool payFixedRate = true;
             bool parAssetSwap = true;
             bool inArrears = false;

             // Fixed bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day
             Date fixedBondStartDate1 = new Date(4,Month.January,2005);
             Date fixedBondMaturityDate1 = new Date(4,Month.January,2037);
             Schedule fixedBondSchedule1 = new Schedule(fixedBondStartDate1,
                                    fixedBondMaturityDate1,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg1 = new FixedRateLeg(fixedBondSchedule1)
            .withCouponRates(0.04, new ActualActual(ActualActual.Convention.ISDA))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption1 = bondCalendar.adjust(fixedBondMaturityDate1, BusinessDayConvention.Following);
             fixedBondLeg1.Add(new SimpleCashFlow(100.0, fixedbondRedemption1));
             // generic bond
             Bond fixedBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  fixedBondMaturityDate1, fixedBondStartDate1, fixedBondLeg1);
             IPricingEngine bondEngine = new DiscountingBondEngine(vars.termStructure);
             IPricingEngine swapEngine = new DiscountingSwapEngine(vars.termStructure);
             fixedBond1.setPricingEngine(bondEngine);

             // equivalent specialized fixed rate bond
             Bond fixedSpecializedBond1 = new FixedRateBond(settlementDays, vars.faceAmount, fixedBondSchedule1,
                           new List<double>{0.04},
                           new ActualActual(ActualActual.Convention.ISDA), BusinessDayConvention.Following,
                           100.0, new Date(4,Month.January,2005));
             fixedSpecializedBond1.setPricingEngine(bondEngine);

             double fixedBondPrice1 = fixedBond1.cleanPrice();
             double fixedSpecializedBondPrice1 = fixedSpecializedBond1.cleanPrice();
             AssetSwap fixedBondAssetSwap1 = new AssetSwap(payFixedRate,
                                       fixedBond1, fixedBondPrice1,
                                       vars.iborIndex, vars.nonnullspread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             fixedBondAssetSwap1.setPricingEngine(swapEngine);
             AssetSwap fixedSpecializedBondAssetSwap1 = new AssetSwap(payFixedRate,
                                                fixedSpecializedBond1,
                                                fixedSpecializedBondPrice1,
                                                vars.iborIndex,
                                                vars.nonnullspread,
                                                null,
                                                vars.iborIndex.dayCounter(),
                                                parAssetSwap);
             fixedSpecializedBondAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondAssetSwapPrice1 = fixedBondAssetSwap1.fairCleanPrice();
             double fixedSpecializedBondAssetSwapPrice1 =
            fixedSpecializedBondAssetSwap1.fairCleanPrice();
             double tolerance = 1.0e-13;
             double error1 =
            Math.Abs(fixedBondAssetSwapPrice1-fixedSpecializedBondAssetSwapPrice1);
             if (error1>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  generic  fixed rate bond's  clean price: "
                        + fixedBondAssetSwapPrice1
                        + "\n  equivalent specialized bond's clean price: "
                        + fixedSpecializedBondAssetSwapPrice1
                        + "\n  error:                 " + error1
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double fixedBondMktPrice1= 91.832;
             AssetSwap fixedBondASW1 = new AssetSwap(payFixedRate,
                                 fixedBond1, fixedBondMktPrice1,
                                 vars.iborIndex, vars.spread,
                                 null,
                                 vars.iborIndex.dayCounter(),
                                 parAssetSwap);
             fixedBondASW1.setPricingEngine(swapEngine);
             AssetSwap fixedSpecializedBondASW1 = new AssetSwap(payFixedRate,
                                          fixedSpecializedBond1,
                                          fixedBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedSpecializedBondASW1.setPricingEngine(swapEngine);
             double fixedBondASWSpread1 = fixedBondASW1.fairSpread();
             double fixedSpecializedBondASWSpread1 = fixedSpecializedBondASW1.fairSpread();
             double error2 = Math.Abs(fixedBondASWSpread1-fixedSpecializedBondASWSpread1);
             if (error2>tolerance) {
            Assert.Fail("wrong asw spread  for fixed bond:"
                        + "\n  generic  fixed rate bond's  asw spread: "
                        + fixedBondASWSpread1
                        + "\n  equivalent specialized bond's asw spread: "
                        + fixedSpecializedBondASWSpread1
                        + "\n  error:                 " + error2
                        + "\n  tolerance:             " + tolerance);
             }

             //Fixed bond (Isin: IT0006527060 IBRD 5 02/05/19)
             //maturity occurs on a business day

             Date fixedBondStartDate2 = new Date(5,Month.February,2005);
             Date fixedBondMaturityDate2 = new Date(5,Month.February,2019);
             Schedule fixedBondSchedule2= new Schedule(fixedBondStartDate2,
                                    fixedBondMaturityDate2,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg2 = new FixedRateLeg(fixedBondSchedule2)
            .withCouponRates(0.05, new Thirty360(Thirty360.Thirty360Convention.BondBasis))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption2 = bondCalendar.adjust(fixedBondMaturityDate2, BusinessDayConvention.Following);
             fixedBondLeg2.Add(new SimpleCashFlow(100.0, fixedbondRedemption2));

             // generic bond
             Bond fixedBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  fixedBondMaturityDate2, fixedBondStartDate2, fixedBondLeg2);
             fixedBond2.setPricingEngine(bondEngine);

             // equivalent specialized fixed rate bond
             Bond fixedSpecializedBond2 = new FixedRateBond(settlementDays, vars.faceAmount, fixedBondSchedule2,
                           new List<double>{ 0.05},
                           new Thirty360(Thirty360.Thirty360Convention.BondBasis), BusinessDayConvention.Following,
                           100.0, new Date(5,Month.February,2005));
             fixedSpecializedBond2.setPricingEngine(bondEngine);

             double fixedBondPrice2 = fixedBond2.cleanPrice();
             double fixedSpecializedBondPrice2 = fixedSpecializedBond2.cleanPrice();
             AssetSwap fixedBondAssetSwap2 = new AssetSwap(payFixedRate,
                                       fixedBond2, fixedBondPrice2,
                                       vars.iborIndex, vars.nonnullspread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             fixedBondAssetSwap2.setPricingEngine(swapEngine);
             AssetSwap fixedSpecializedBondAssetSwap2 = new AssetSwap(payFixedRate,
                                                fixedSpecializedBond2,
                                                fixedSpecializedBondPrice2,
                                                vars.iborIndex,
                                                vars.nonnullspread,
                                                null,
                                                vars.iborIndex.dayCounter(),
                                                parAssetSwap);
             fixedSpecializedBondAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondAssetSwapPrice2 = fixedBondAssetSwap2.fairCleanPrice();
             double fixedSpecializedBondAssetSwapPrice2 = fixedSpecializedBondAssetSwap2.fairCleanPrice();

             double error3 = Math.Abs(fixedBondAssetSwapPrice2-fixedSpecializedBondAssetSwapPrice2);
             if (error3>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  generic  fixed rate bond's clean price: "
                        + fixedBondAssetSwapPrice2
                        + "\n  equivalent specialized  bond's clean price: "
                        + fixedSpecializedBondAssetSwapPrice2
                        + "\n  error:                 " + error3
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double fixedBondMktPrice2= 102.178;
             AssetSwap fixedBondASW2 = new AssetSwap(payFixedRate,
                                 fixedBond2, fixedBondMktPrice2,
                                 vars.iborIndex, vars.spread,
                                 null,
                                 vars.iborIndex.dayCounter(),
                                 parAssetSwap);
             fixedBondASW2.setPricingEngine(swapEngine);
             AssetSwap fixedSpecializedBondASW2 = new AssetSwap(payFixedRate,
                                          fixedSpecializedBond2,
                                          fixedBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             fixedSpecializedBondASW2.setPricingEngine(swapEngine);
             double fixedBondASWSpread2 = fixedBondASW2.fairSpread();
             double fixedSpecializedBondASWSpread2 = fixedSpecializedBondASW2.fairSpread();
             double error4 = Math.Abs(fixedBondASWSpread2-fixedSpecializedBondASWSpread2);
             if (error4>tolerance) {
            Assert.Fail("wrong asw spread for fixed bond:"
                        + "\n  generic  fixed rate bond's  asw spread: "
                        + fixedBondASWSpread2
                        + "\n  equivalent specialized bond's asw spread: "
                        + fixedSpecializedBondASWSpread2
                        + "\n  error:                 " + error4
                        + "\n  tolerance:             " + tolerance);
             }

             //FRN bond (Isin: IT0003543847 ISPIM 0 09/29/13)
             //maturity doesn't occur on a business day
             Date floatingBondStartDate1 = new Date(29,Month.September,2003);
             Date floatingBondMaturityDate1 = new Date(29,Month.September,2013);
             Schedule floatingBondSchedule1= new Schedule(floatingBondStartDate1,
                                       floatingBondMaturityDate1,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg1 = new IborLeg(floatingBondSchedule1, vars.iborIndex)
            .withPaymentDayCounter(new Actual360())
            .withFixingDays(fixingDays)
            .withSpreads(0.0056)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption1 = bondCalendar.adjust(floatingBondMaturityDate1, BusinessDayConvention.Following);
             floatingBondLeg1.Add(new SimpleCashFlow(100.0, floatingbondRedemption1));
             // generic bond
             Bond floatingBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  floatingBondMaturityDate1, floatingBondStartDate1, floatingBondLeg1);
             floatingBond1.setPricingEngine(bondEngine);

             // equivalent specialized floater
             Bond floatingSpecializedBond1 = new FloatingRateBond(settlementDays, vars.faceAmount,
                                 floatingBondSchedule1,
                                 vars.iborIndex, new Actual360(),
                                 BusinessDayConvention.Following, fixingDays,
                                 new List<double>{1},
                                 new List<double>{0.0056},
                                 new List<double>(), new List<double>(),
                                 inArrears,
                                 100.0, new Date(29,Month.September,2003));
             floatingSpecializedBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond1.cashflows(), vars.pricer);
             Utils.setCouponPricer(floatingSpecializedBond1.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(27,Month.March,2007), 0.0402);
             double floatingBondPrice1 = floatingBond1.cleanPrice();
             double floatingSpecializedBondPrice1= floatingSpecializedBond1.cleanPrice();
             AssetSwap floatingBondAssetSwap1= new AssetSwap(payFixedRate,
                                          floatingBond1, floatingBondPrice1,
                                          vars.iborIndex, vars.nonnullspread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             floatingBondAssetSwap1.setPricingEngine(swapEngine);
             AssetSwap floatingSpecializedBondAssetSwap1= new AssetSwap(payFixedRate,
                                                   floatingSpecializedBond1,
                                                   floatingSpecializedBondPrice1,
                                                   vars.iborIndex,
                                                   vars.nonnullspread,
                                                   null,
                                                   vars.iborIndex.dayCounter(),
                                                   parAssetSwap);
             floatingSpecializedBondAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondAssetSwapPrice1 = floatingBondAssetSwap1.fairCleanPrice();
             double floatingSpecializedBondAssetSwapPrice1 =
            floatingSpecializedBondAssetSwap1.fairCleanPrice();

             double error5 =
            Math.Abs(floatingBondAssetSwapPrice1-floatingSpecializedBondAssetSwapPrice1);
             if (error5>tolerance) {
            Assert.Fail("wrong clean price for frnbond:"
                        + "\n  generic frn rate bond's clean price: "
                        + floatingBondAssetSwapPrice1
                        + "\n  equivalent specialized  bond's price: "
                        + floatingSpecializedBondAssetSwapPrice1
                        + "\n  error:                 " + error5
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double floatingBondMktPrice1= 101.33;
             AssetSwap floatingBondASW1= new AssetSwap(payFixedRate,
                                    floatingBond1, floatingBondMktPrice1,
                                    vars.iborIndex, vars.spread,
                                    null,
                                    vars.iborIndex.dayCounter(),
                                    parAssetSwap);
             floatingBondASW1.setPricingEngine(swapEngine);
             AssetSwap floatingSpecializedBondASW1= new AssetSwap(payFixedRate,
                                             floatingSpecializedBond1,
                                             floatingBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingSpecializedBondASW1.setPricingEngine(swapEngine);
             double floatingBondASWSpread1 = floatingBondASW1.fairSpread();
             double floatingSpecializedBondASWSpread1 =
            floatingSpecializedBondASW1.fairSpread();
             double error6 =
            Math.Abs(floatingBondASWSpread1-floatingSpecializedBondASWSpread1);
             if (error6>tolerance) {
            Assert.Fail("wrong asw spread for fixed bond:"
                        + "\n  generic  frn rate bond's  asw spread: "
                        + floatingBondASWSpread1
                        + "\n  equivalent specialized bond's asw spread: "
                        + floatingSpecializedBondASWSpread1
                        + "\n  error:                 " + error6
                        + "\n  tolerance:             " + tolerance);
             }
             //FRN bond (Isin: XS0090566539 COE 0 09/24/18)
             //maturity occurs on a business day
             Date floatingBondStartDate2 = new Date(24,Month.September,2004);
             Date floatingBondMaturityDate2 = new Date(24,Month.September,2018);
             Schedule floatingBondSchedule2= new Schedule(floatingBondStartDate2,
                                       floatingBondMaturityDate2,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg2 = new IborLeg(floatingBondSchedule2, vars.iborIndex)
            .withPaymentDayCounter(new Actual360())
            .withFixingDays(fixingDays)
            .withSpreads(0.0025)
            .inArrears(inArrears)
            .withPaymentAdjustment(BusinessDayConvention.ModifiedFollowing)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption2 = bondCalendar.adjust(floatingBondMaturityDate2, BusinessDayConvention.ModifiedFollowing);
             floatingBondLeg2.Add(new SimpleCashFlow(100.0, floatingbondRedemption2));
             // generic bond
             Bond floatingBond2 = new  Bond(settlementDays, bondCalendar, vars.faceAmount,
                  floatingBondMaturityDate2, floatingBondStartDate2,floatingBondLeg2);
             floatingBond2.setPricingEngine(bondEngine);

             // equivalent specialized floater
             Bond floatingSpecializedBond2 = new FloatingRateBond(settlementDays, vars.faceAmount,
                              floatingBondSchedule2,
                              vars.iborIndex, new Actual360(),
                              BusinessDayConvention.ModifiedFollowing, fixingDays,
                              new List<double>{1},
                              new List<double>{0.0025},
                              new List<double>(), new List<double>(),
                              inArrears,
                              100.0, new Date(24,Month.September,2004));
             floatingSpecializedBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond2.cashflows(), vars.pricer);
             Utils.setCouponPricer(floatingSpecializedBond2.cashflows(), vars.pricer);

             vars.iborIndex.addFixing(new Date(22,Month.March,2007), 0.04013);

             double floatingBondPrice2 = floatingBond2.cleanPrice();
             double floatingSpecializedBondPrice2= floatingSpecializedBond2.cleanPrice();
             AssetSwap floatingBondAssetSwap2= new AssetSwap(payFixedRate,
                                          floatingBond2, floatingBondPrice2,
                                          vars.iborIndex, vars.nonnullspread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             floatingBondAssetSwap2.setPricingEngine(swapEngine);
             AssetSwap floatingSpecializedBondAssetSwap2= new AssetSwap(payFixedRate,
                                                   floatingSpecializedBond2,
                                                   floatingSpecializedBondPrice2,
                                                   vars.iborIndex,
                                                   vars.nonnullspread,
                                                   null,
                                                   vars.iborIndex.dayCounter(),
                                                   parAssetSwap);
             floatingSpecializedBondAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondAssetSwapPrice2 = floatingBondAssetSwap2.fairCleanPrice();
             double floatingSpecializedBondAssetSwapPrice2 =
            floatingSpecializedBondAssetSwap2.fairCleanPrice();
             double error7 =
            Math.Abs(floatingBondAssetSwapPrice2-floatingSpecializedBondAssetSwapPrice2);
             if (error7>tolerance) {
            Assert.Fail("wrong clean price for frnbond:"
                        + "\n  generic frn rate bond's clean price: "
                        + floatingBondAssetSwapPrice2
                        + "\n  equivalent specialized frn  bond's price: "
                        + floatingSpecializedBondAssetSwapPrice2
                        + "\n  error:                 " + error7
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double floatingBondMktPrice2 = 101.26;
             AssetSwap floatingBondASW2= new AssetSwap(payFixedRate,
                                    floatingBond2, floatingBondMktPrice2,
                                    vars.iborIndex, vars.spread,
                                    null,
                                    vars.iborIndex.dayCounter(),
                                    parAssetSwap);
             floatingBondASW2.setPricingEngine(swapEngine);
             AssetSwap floatingSpecializedBondASW2= new AssetSwap(payFixedRate,
                                             floatingSpecializedBond2,
                                             floatingBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             floatingSpecializedBondASW2.setPricingEngine(swapEngine);
             double floatingBondASWSpread2 = floatingBondASW2.fairSpread();
             double floatingSpecializedBondASWSpread2 =
            floatingSpecializedBondASW2.fairSpread();
             double error8 =
            Math.Abs(floatingBondASWSpread2-floatingSpecializedBondASWSpread2);
             if (error8>tolerance) {
            Assert.Fail("wrong asw spread for frn bond:"
                        + "\n  generic  frn rate bond's  asw spread: "
                        + floatingBondASWSpread2
                        + "\n  equivalent specialized bond's asw spread: "
                        + floatingSpecializedBondASWSpread2
                        + "\n  error:                 " + error8
                        + "\n  tolerance:             " + tolerance);
             }

             // CMS bond (Isin: XS0228052402 CRDIT 0 8/22/20)
             // maturity doesn't occur on a business day
             Date cmsBondStartDate1 = new Date(22,Month.August,2005);
             Date cmsBondMaturityDate1 = new Date(22,Month.August,2020);
             Schedule cmsBondSchedule1= new Schedule(cmsBondStartDate1,
                                 cmsBondMaturityDate1,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg1 = new CmsLeg(cmsBondSchedule1, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withCaps(0.055)
            .withFloors(0.025)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption1 = bondCalendar.adjust(cmsBondMaturityDate1, BusinessDayConvention.Following);
             cmsBondLeg1.Add(new SimpleCashFlow(100.0, cmsbondRedemption1));
             // generic cms bond
             Bond cmsBond1 = new  Bond(settlementDays, bondCalendar, vars.faceAmount,
                  cmsBondMaturityDate1, cmsBondStartDate1, cmsBondLeg1);
             cmsBond1.setPricingEngine(bondEngine);

             // equivalent specialized cms bond
             Bond cmsSpecializedBond1 = new CmsRateBond(settlementDays, vars.faceAmount, cmsBondSchedule1,
                     vars.swapIndex, new Thirty360(),
                     BusinessDayConvention.Following, fixingDays,
                     new List<double>{1.0}, new List<double>{0.0},
                     new List<double>{0.055}, new List<double>{0.025},
                     inArrears,
                     100.0, new Date(22,Month.August,2005));
             cmsSpecializedBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond1.cashflows(), vars.cmspricer);
             Utils.setCouponPricer(cmsSpecializedBond1.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(18,Month.August,2006), 0.04158);
             double cmsBondPrice1 = cmsBond1.cleanPrice();
             double cmsSpecializedBondPrice1 = cmsSpecializedBond1.cleanPrice();
             AssetSwap cmsBondAssetSwap1= new AssetSwap(payFixedRate,cmsBond1, cmsBondPrice1,
                                    vars.iborIndex, vars.nonnullspread,
                                    null,vars.iborIndex.dayCounter(),
                                    parAssetSwap);
             cmsBondAssetSwap1.setPricingEngine(swapEngine);
             AssetSwap cmsSpecializedBondAssetSwap1= new AssetSwap(payFixedRate,cmsSpecializedBond1,
                                                cmsSpecializedBondPrice1,
                                                vars.iborIndex,
                                                vars.nonnullspread,
                                                null,
                                                vars.iborIndex.dayCounter(),
                                                parAssetSwap);
             cmsSpecializedBondAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondAssetSwapPrice1 = cmsBondAssetSwap1.fairCleanPrice();
             double cmsSpecializedBondAssetSwapPrice1 =
            cmsSpecializedBondAssetSwap1.fairCleanPrice();
             double error9 =
            Math.Abs(cmsBondAssetSwapPrice1-cmsSpecializedBondAssetSwapPrice1);
             if (error9>tolerance) {
            Assert.Fail("wrong clean price for cmsbond:"
                        + "\n  generic bond's clean price: "
                        + cmsBondAssetSwapPrice1
                        + "\n  equivalent specialized cms rate bond's price: "
                        + cmsSpecializedBondAssetSwapPrice1
                        + "\n  error:                 " + error9
                        + "\n  tolerance:             " + tolerance);
             }
             double cmsBondMktPrice1 = 87.02;// market executable price as of 4th sept 2007
             AssetSwap cmsBondASW1= new AssetSwap(payFixedRate,
                              cmsBond1, cmsBondMktPrice1,
                              vars.iborIndex, vars.spread,
                              null,
                              vars.iborIndex.dayCounter(),
                              parAssetSwap);
             cmsBondASW1.setPricingEngine(swapEngine);
             AssetSwap cmsSpecializedBondASW1= new AssetSwap(payFixedRate,
                                          cmsSpecializedBond1,
                                          cmsBondMktPrice1,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             cmsSpecializedBondASW1.setPricingEngine(swapEngine);
             double cmsBondASWSpread1 = cmsBondASW1.fairSpread();
             double cmsSpecializedBondASWSpread1 = cmsSpecializedBondASW1.fairSpread();
             double error10 = Math.Abs(cmsBondASWSpread1-cmsSpecializedBondASWSpread1);
             if (error10>tolerance) {
            Assert.Fail("wrong asw spread for cm bond:"
                        + "\n  generic cms rate bond's  asw spread: "
                        + cmsBondASWSpread1
                        + "\n  equivalent specialized bond's asw spread: "
                        + cmsSpecializedBondASWSpread1
                        + "\n  error:                 " + error10
                        + "\n  tolerance:             " + tolerance);
             }

             //CMS bond (Isin: XS0218766664 ISPIM 0 5/6/15)
             //maturity occurs on a business day
             Date cmsBondStartDate2 = new Date(06,Month.May,2005);
             Date cmsBondMaturityDate2 = new Date(06,Month.May,2015);
             Schedule cmsBondSchedule2= new Schedule(cmsBondStartDate2,
                                 cmsBondMaturityDate2,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg2 = new CmsLeg(cmsBondSchedule2, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withGearings(0.84)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption2 = bondCalendar.adjust(cmsBondMaturityDate2,
                                                      BusinessDayConvention.Following);
             cmsBondLeg2.Add(new SimpleCashFlow(100.0, cmsbondRedemption2));
             // generic bond
             Bond cmsBond2 = new  Bond(settlementDays, bondCalendar, vars.faceAmount,
                  cmsBondMaturityDate2, cmsBondStartDate2, cmsBondLeg2);
             cmsBond2.setPricingEngine(bondEngine);

             // equivalent specialized cms bond
             Bond cmsSpecializedBond2 = new  CmsRateBond(settlementDays, vars.faceAmount, cmsBondSchedule2,
                     vars.swapIndex, new Thirty360(),
                     BusinessDayConvention.Following, fixingDays,
                     new List<double>{0.84}, new List<double>{0.0},
                     new List<double>(), new List<double>(),
                     inArrears,
                     100.0, new Date(06,Month.May,2005));
             cmsSpecializedBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond2.cashflows(), vars.cmspricer);
             Utils.setCouponPricer(cmsSpecializedBond2.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(04,Month.May,2006), 0.04217);
             double cmsBondPrice2 = cmsBond2.cleanPrice();
             double cmsSpecializedBondPrice2 = cmsSpecializedBond2.cleanPrice();
             AssetSwap cmsBondAssetSwap2= new AssetSwap(payFixedRate,cmsBond2, cmsBondPrice2,
                                    vars.iborIndex, vars.nonnullspread,
                                    null,
                                    vars.iborIndex.dayCounter(),
                                    parAssetSwap);
             cmsBondAssetSwap2.setPricingEngine(swapEngine);
             AssetSwap cmsSpecializedBondAssetSwap2= new AssetSwap(payFixedRate,cmsSpecializedBond2,
                                                cmsSpecializedBondPrice2,
                                                vars.iborIndex,
                                                vars.nonnullspread,
                                                null,
                                                vars.iborIndex.dayCounter(),
                                                parAssetSwap);
             cmsSpecializedBondAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondAssetSwapPrice2 = cmsBondAssetSwap2.fairCleanPrice();
             double cmsSpecializedBondAssetSwapPrice2 =
            cmsSpecializedBondAssetSwap2.fairCleanPrice();
             double error11 =
            Math.Abs(cmsBondAssetSwapPrice2-cmsSpecializedBondAssetSwapPrice2);
             if (error11>tolerance) {
            Assert.Fail("wrong clean price for cmsbond:"
                        + "\n  generic  bond's clean price: "
                        + cmsBondAssetSwapPrice2
                        + "\n  equivalent specialized cms rate bond's price: "
                        + cmsSpecializedBondAssetSwapPrice2
                        + "\n  error:                 " + error11
                        + "\n  tolerance:             " + tolerance);
             }
             double cmsBondMktPrice2 = 94.35;// market executable price as of 4th sept 2007
             AssetSwap cmsBondASW2= new AssetSwap(payFixedRate,
                              cmsBond2, cmsBondMktPrice2,
                              vars.iborIndex, vars.spread,
                              null,
                              vars.iborIndex.dayCounter(),
                              parAssetSwap);
             cmsBondASW2.setPricingEngine(swapEngine);
             AssetSwap cmsSpecializedBondASW2= new AssetSwap(payFixedRate,
                                          cmsSpecializedBond2,
                                          cmsBondMktPrice2,
                                          vars.iborIndex, vars.spread,
                                          null,
                                          vars.iborIndex.dayCounter(),
                                          parAssetSwap);
             cmsSpecializedBondASW2.setPricingEngine(swapEngine);
             double cmsBondASWSpread2 = cmsBondASW2.fairSpread();
             double cmsSpecializedBondASWSpread2 = cmsSpecializedBondASW2.fairSpread();
             double error12 = Math.Abs(cmsBondASWSpread2-cmsSpecializedBondASWSpread2);
             if (error12>tolerance) {
            Assert.Fail("wrong asw spread for cm bond:"
                        + "\n  generic cms rate bond's  asw spread: "
                        + cmsBondASWSpread2
                        + "\n  equivalent specialized bond's asw spread: "
                        + cmsSpecializedBondASWSpread2
                        + "\n  error:                 " + error12
                        + "\n  tolerance:             " + tolerance);
             }

              //  Zero-Coupon bond (Isin: DE0004771662 IBRD 0 12/20/15)
              //  maturity doesn't occur on a business day
             Date zeroCpnBondStartDate1 = new Date(19,Month.December,1985);
             Date zeroCpnBondMaturityDate1 = new Date(20,Month.December,2015);
             Date zeroCpnBondRedemption1 = bondCalendar.adjust(zeroCpnBondMaturityDate1,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg1 = new List<CashFlow>{new SimpleCashFlow(100.0, zeroCpnBondRedemption1)};
             // generic bond
             Bond zeroCpnBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  zeroCpnBondMaturityDate1, zeroCpnBondStartDate1, zeroCpnBondLeg1);
             zeroCpnBond1.setPricingEngine(bondEngine);

             // specialized zerocpn bond
             Bond zeroCpnSpecializedBond1= new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                     new Date(20,Month.December,2015),
                     BusinessDayConvention.Following,
                     100.0, new Date(19,Month.December,1985));
             zeroCpnSpecializedBond1.setPricingEngine(bondEngine);

             double zeroCpnBondPrice1 = zeroCpnBond1.cleanPrice();
             double zeroCpnSpecializedBondPrice1 = zeroCpnSpecializedBond1.cleanPrice();
             AssetSwap zeroCpnBondAssetSwap1= new AssetSwap(payFixedRate,zeroCpnBond1,
                                       zeroCpnBondPrice1,
                                       vars.iborIndex, vars.nonnullspread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             zeroCpnBondAssetSwap1.setPricingEngine(swapEngine);
             AssetSwap zeroCpnSpecializedBondAssetSwap1= new AssetSwap(payFixedRate,
                                                   zeroCpnSpecializedBond1,
                                                   zeroCpnSpecializedBondPrice1,
                                                   vars.iborIndex,
                                                   vars.nonnullspread,
                                                   null,
                                                   vars.iborIndex.dayCounter(),
                                                   parAssetSwap);
             zeroCpnSpecializedBondAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondAssetSwapPrice1 = zeroCpnBondAssetSwap1.fairCleanPrice();
             double zeroCpnSpecializedBondAssetSwapPrice1 =
            zeroCpnSpecializedBondAssetSwap1.fairCleanPrice();
             double error13 =
            Math.Abs(zeroCpnBondAssetSwapPrice1-zeroCpnSpecializedBondAssetSwapPrice1);
             if (error13>tolerance) {
            Assert.Fail("wrong clean price for zerocpn bond:"
                        + "\n  generic zero cpn bond's clean price: "
                        + zeroCpnBondAssetSwapPrice1
                        + "\n  specialized equivalent bond's price: "
                        + zeroCpnSpecializedBondAssetSwapPrice1
                        + "\n  error:                 " + error13
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double zeroCpnBondMktPrice1 = 72.277;
             AssetSwap zeroCpnBondASW1= new AssetSwap(payFixedRate,
                                 zeroCpnBond1,zeroCpnBondMktPrice1,
                                 vars.iborIndex, vars.spread,
                                 null,
                                 vars.iborIndex.dayCounter(),
                                 parAssetSwap);
             zeroCpnBondASW1.setPricingEngine(swapEngine);
             AssetSwap zeroCpnSpecializedBondASW1= new AssetSwap(payFixedRate,
                                             zeroCpnSpecializedBond1,
                                             zeroCpnBondMktPrice1,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             zeroCpnSpecializedBondASW1.setPricingEngine(swapEngine);
             double zeroCpnBondASWSpread1 = zeroCpnBondASW1.fairSpread();
             double zeroCpnSpecializedBondASWSpread1 =
            zeroCpnSpecializedBondASW1.fairSpread();
             double error14 =
            Math.Abs(zeroCpnBondASWSpread1-zeroCpnSpecializedBondASWSpread1);
             if (error14>tolerance) {
            Assert.Fail("wrong asw spread for zeroCpn bond:"
                        + "\n  generic zeroCpn bond's  asw spread: "
                        + zeroCpnBondASWSpread1
                        + "\n  equivalent specialized bond's asw spread: "
                        + zeroCpnSpecializedBondASWSpread1
                        + "\n  error:                 " + error14
                        + "\n  tolerance:             " + tolerance);
             }

              //  Zero Coupon bond (Isin: IT0001200390 ISPIM 0 02/17/28)
              //  maturity doesn't occur on a business day
             Date zeroCpnBondStartDate2 = new Date(17,Month.February,1998);
             Date zeroCpnBondMaturityDate2 = new Date(17,Month.February,2028);
             Date zerocpbondRedemption2 = bondCalendar.adjust(zeroCpnBondMaturityDate2,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg2 = new List<CashFlow>{new SimpleCashFlow(100.0, zerocpbondRedemption2)};
             // generic bond
             Bond zeroCpnBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  zeroCpnBondMaturityDate2, zeroCpnBondStartDate2, zeroCpnBondLeg2);
             zeroCpnBond2.setPricingEngine(bondEngine);

             // specialized zerocpn bond
             Bond zeroCpnSpecializedBond2 = new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                        new Date(17,Month.February,2028),
                        BusinessDayConvention.Following,
                        100.0, new Date(17,Month.February,1998));
             zeroCpnSpecializedBond2.setPricingEngine(bondEngine);

             double zeroCpnBondPrice2 = zeroCpnBond2.cleanPrice();
             double zeroCpnSpecializedBondPrice2 = zeroCpnSpecializedBond2.cleanPrice();

             AssetSwap zeroCpnBondAssetSwap2= new AssetSwap(payFixedRate,zeroCpnBond2,
                                       zeroCpnBondPrice2,
                                       vars.iborIndex, vars.nonnullspread,
                                       null,
                                       vars.iborIndex.dayCounter(),
                                       parAssetSwap);
             zeroCpnBondAssetSwap2.setPricingEngine(swapEngine);
             AssetSwap zeroCpnSpecializedBondAssetSwap2= new AssetSwap(payFixedRate,
                                                   zeroCpnSpecializedBond2,
                                                   zeroCpnSpecializedBondPrice2,
                                                   vars.iborIndex,
                                                   vars.nonnullspread,
                                                   null,
                                                   vars.iborIndex.dayCounter(),
                                                   parAssetSwap);
             zeroCpnSpecializedBondAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondAssetSwapPrice2 = zeroCpnBondAssetSwap2.fairCleanPrice();
             double zeroCpnSpecializedBondAssetSwapPrice2 =
                                    zeroCpnSpecializedBondAssetSwap2.fairCleanPrice();
             double error15 = Math.Abs(zeroCpnBondAssetSwapPrice2
                                 -zeroCpnSpecializedBondAssetSwapPrice2);
             if (error15>tolerance) {
            Assert.Fail("wrong clean price for zerocpn bond:"
                        + "\n  generic zero cpn bond's clean price: "
                        + zeroCpnBondAssetSwapPrice2
                        + "\n  equivalent specialized bond's price: "
                        + zeroCpnSpecializedBondAssetSwapPrice2
                        + "\n  error:                 " + error15
                        + "\n  tolerance:             " + tolerance);
             }
             // market executable price as of 4th sept 2007
             double zeroCpnBondMktPrice2 = 72.277;
             AssetSwap zeroCpnBondASW2= new AssetSwap(payFixedRate,
                                 zeroCpnBond2,zeroCpnBondMktPrice2,
                                 vars.iborIndex, vars.spread,
                                 null,
                                 vars.iborIndex.dayCounter(),
                                 parAssetSwap);
             zeroCpnBondASW2.setPricingEngine(swapEngine);
             AssetSwap zeroCpnSpecializedBondASW2= new AssetSwap(payFixedRate,
                                             zeroCpnSpecializedBond2,
                                             zeroCpnBondMktPrice2,
                                             vars.iborIndex, vars.spread,
                                             null,
                                             vars.iborIndex.dayCounter(),
                                             parAssetSwap);
             zeroCpnSpecializedBondASW2.setPricingEngine(swapEngine);
             double zeroCpnBondASWSpread2 = zeroCpnBondASW2.fairSpread();
             double zeroCpnSpecializedBondASWSpread2 =
            zeroCpnSpecializedBondASW2.fairSpread();
             double error16 =
            Math.Abs(zeroCpnBondASWSpread2-zeroCpnSpecializedBondASWSpread2);
             if (error16>tolerance) {
            Assert.Fail("wrong asw spread for zeroCpn bond:"
                        + "\n  generic zeroCpn bond's  asw spread: "
                        + zeroCpnBondASWSpread2
                        + "\n  equivalent specialized bond's asw spread: "
                        + zeroCpnSpecializedBondASWSpread2
                        + "\n  error:                 " + error16
                        + "\n  tolerance:             " + tolerance);
             }
        }
Exemplo n.º 48
0
        public void testYield()
        {
            //"Testing consistency of bond price/yield calculation...");

             CommonVars vars = new CommonVars();

             double tolerance = 1.0e-7;
             int maxEvaluations = 100;

             int[] issueMonths = new int[] { -24, -18, -12, -6, 0, 6, 12, 18, 24 };
             int[] lengths = new int[] { 3, 5, 10, 15, 20 };
             int settlementDays = 3;
             double[] coupons = new double[] { 0.02, 0.05, 0.08 };
             Frequency[] frequencies = new Frequency[] { Frequency.Semiannual, Frequency.Annual };
             DayCounter bondDayCount = new Thirty360();
             BusinessDayConvention accrualConvention = BusinessDayConvention.Unadjusted;
             BusinessDayConvention paymentConvention = BusinessDayConvention.ModifiedFollowing;
             double redemption = 100.0;

             double[] yields = new double[] { 0.03, 0.04, 0.05, 0.06, 0.07 };
             Compounding[] compounding = new Compounding[] { Compounding.Compounded, Compounding.Continuous };

             for (int i = 0; i < issueMonths.Length; i++)
             {
            for (int j = 0; j < lengths.Length; j++)
            {
               for (int k = 0; k < coupons.Length; k++)
               {
                  for (int l = 0; l < frequencies.Length; l++)
                  {
                     for (int n = 0; n < compounding.Length; n++)
                     {

                        Date dated = vars.calendar.advance(vars.today, issueMonths[i], TimeUnit.Months);
                        Date issue = dated;
                        Date maturity = vars.calendar.advance(issue, lengths[j], TimeUnit.Years);

                        Schedule sch = new Schedule(dated, maturity, new Period(frequencies[l]), vars.calendar,
                                                    accrualConvention, accrualConvention, DateGeneration.Rule.Backward, false);

                        FixedRateBond bond = new FixedRateBond(settlementDays, vars.faceAmount, sch,
                                                               new List<double>() { coupons[k] },
                                                               bondDayCount, paymentConvention,
                                                               redemption, issue);

                        for (int m = 0; m < yields.Length; m++)
                        {

                           double price = bond.cleanPrice(yields[m], bondDayCount, compounding[n], frequencies[l]);
                           double calculated = bond.yield(price, bondDayCount, compounding[n], frequencies[l], null,
                                                          tolerance, maxEvaluations);

                           if (Math.Abs(yields[m] - calculated) > tolerance)
                           {
                              // the difference might not matter
                              double price2 = bond.cleanPrice(calculated, bondDayCount, compounding[n], frequencies[l]);
                              if (Math.Abs(price - price2) / price > tolerance)
                              {
                                 Assert.Fail("yield recalculation failed:\n"
                                     + "    issue:     " + issue + "\n"
                                     + "    maturity:  " + maturity + "\n"
                                     + "    coupon:    " + coupons[k] + "\n"
                                     + "    frequency: " + frequencies[l] + "\n\n"
                                     + "    yield:  " + yields[m] + " "
                                     + (compounding[n] == Compounding.Compounded ? "compounded" : "continuous") + "\n"
                                     + "    price:  " + price + "\n"
                                     + "    yield': " + calculated + "\n"
                                     + "    price': " + price2);
                              }
                           }
                        }
                     }
                  }
               }
            }
             }
        }
Exemplo n.º 49
0
        public void testTheoretical()
        {
            // "Testing theoretical bond price/yield calculation...");

             CommonVars vars = new CommonVars();

             double tolerance = 1.0e-7;
             int maxEvaluations = 100;

             int[] lengths = new int[] { 3, 5, 10, 15, 20 };
             int settlementDays = 3;
             double[] coupons = new double[] { 0.02, 0.05, 0.08 };
             Frequency[] frequencies = new Frequency[] { Frequency.Semiannual, Frequency.Annual };
             DayCounter bondDayCount = new Actual360();
             BusinessDayConvention accrualConvention = BusinessDayConvention.Unadjusted;
             BusinessDayConvention paymentConvention = BusinessDayConvention.ModifiedFollowing;
             double redemption = 100.0;

             double[] yields = new double[] { 0.03, 0.04, 0.05, 0.06, 0.07 };

             for (int j = 0; j < lengths.Length; j++)
             {
            for (int k = 0; k < coupons.Length; k++)
            {
               for (int l = 0; l < frequencies.Length; l++)
               {

                  Date dated = vars.today;
                  Date issue = dated;
                  Date maturity = vars.calendar.advance(issue, lengths[j], TimeUnit.Years);

                  SimpleQuote rate = new SimpleQuote(0.0);
                  var discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(vars.today, rate, bondDayCount));

                  Schedule sch = new Schedule(dated, maturity, new Period(frequencies[l]), vars.calendar,
                                              accrualConvention, accrualConvention, DateGeneration.Rule.Backward, false);

                  FixedRateBond bond = new FixedRateBond(settlementDays, vars.faceAmount, sch, new List<double>() { coupons[k] },
                                                         bondDayCount, paymentConvention, redemption, issue);

                  IPricingEngine bondEngine = new DiscountingBondEngine(discountCurve);
                  bond.setPricingEngine(bondEngine);

                  for (int m = 0; m < yields.Length; m++)
                  {

                     rate.setValue(yields[m]);

                     double price = bond.cleanPrice(yields[m], bondDayCount, Compounding.Continuous, frequencies[l]);
                     double calculatedPrice = bond.cleanPrice();

                     if (Math.Abs(price - calculatedPrice) > tolerance)
                     {
                        Assert.Fail("price calculation failed:"
                            + "\n    issue:     " + issue
                            + "\n    maturity:  " + maturity
                            + "\n    coupon:    " + coupons[k]
                            + "\n    frequency: " + frequencies[l] + "\n"
                            + "\n    yield:     " + yields[m]
                            + "\n    expected:    " + price
                            + "\n    calculated': " + calculatedPrice
                            + "\n    error':      " + (price - calculatedPrice));
                     }

                     double calculatedYield = bond.yield(bondDayCount, Compounding.Continuous, frequencies[l],
                                              tolerance, maxEvaluations);
                     if (Math.Abs(yields[m] - calculatedYield) > tolerance)
                     {
                        Assert.Fail("yield calculation failed:"
                            + "\n    issue:     " + issue
                            + "\n    maturity:  " + maturity
                            + "\n    coupon:    " + coupons[k]
                            + "\n    frequency: " + frequencies[l] + "\n"
                            + "\n    yield:  " + yields[m]
                            + "\n    price:  " + price
                            + "\n    yield': " + calculatedYield);
                     }
                  }
               }
            }
             }
        }
Exemplo n.º 50
0
        public void testImpliedVolatility()
        {
            //"Testing implied volatility for swaptions...";

            CommonVars vars=new CommonVars();

            int maxEvaluations = 100;
            double tolerance = 1.0e-08;

            Settlement.Type[] types = { Settlement.Type.Physical, Settlement.Type.Cash };
            // test data
            double[] strikes = { 0.02, 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] vols = { 0.01, 0.05, 0.10, 0.20, 0.30, 0.70, 0.90 };

            for (int i = 0; i < exercises.Length; i++)
            {
                for (int j = 0; j < lengths.Length; j++)
                {
                    Date exerciseDate = vars.calendar.advance(vars.today, exercises[i]);
                    Date startDate = vars.calendar.advance(exerciseDate,
                                                           vars.settlementDays, TimeUnit.Days);
                    Date maturity = vars.calendar.advance(startDate, lengths[j],
                                                          vars.floatingConvention);
                    for (int t = 0; t < strikes.Length; t++)
                    {
                        for (int k = 0; k < type.Length; k++)
                        {
                            VanillaSwap swap = new MakeVanillaSwap(lengths[j], vars.index, strikes[t])
                                        .withEffectiveDate(startDate)
                                        .withFloatingLegSpread(0.0)
                                        .withType(type[k]);
                            for (int h = 0; h < types.Length; h++)
                            {
                                for (int u = 0; u < vols.Length; u++)
                                {
                                    Swaption swaption = vars.makeSwaption(swap, exerciseDate,
                                                                            vols[u], types[h]);
                                    // Black price
                                    double value = swaption.NPV();
                                    double implVol = 0.0;
                                    try
                                    {
                                        implVol =
                                          swaption.impliedVolatility(value,
                                                                      vars.termStructure,
                                                                      0.10,
                                                                      tolerance,
                                                                      maxEvaluations);
                                    }
                                    catch (System.Exception e)
                                    {
                                        // couldn't bracket?
                                        swaption.setPricingEngine(vars.makeEngine(0.0));
                                        double value2 = swaption.NPV();
                                        if (Math.Abs(value - value2) < tolerance)
                                        {
                                            // ok, just skip:
                                            continue;
                                        }
                                        // otherwise, report error
                                        Assert.Fail("implied vol failure: " +
                                                    exercises[i] + "x" + lengths[j] + " " + type[k] +
                                                    "\nsettlement: " + types[h] +
                                                    "\nstrike      " + strikes[t] +
                                                    "\natm level:  " + swap.fairRate() +
                                                    "\nvol:        " + vols[u] +
                                                    "\nprice:      " + value +
                                                    "\n" + e.Message.ToString());
                                    }
                                    if (Math.Abs(implVol - vols[u]) > tolerance)
                                    {
                                        // the difference might not matter
                                        swaption.setPricingEngine(vars.makeEngine(implVol));
                                        double value2 = swaption.NPV();
                                        if (Math.Abs(value - value2) > tolerance)
                                        {
                                            Assert.Fail("implied vol failure: " +
                                                exercises[i] + "x" + lengths[j] + " " + type[k] +
                                                "\nsettlement:    " + types[h] +
                                                "\nstrike         " + strikes[t] +
                                                "\natm level:     " + swap.fairRate() +
                                                "\nvol:           " + vols[u] +
                                                "\nprice:         " + value +
                                                "\nimplied vol:   " + implVol +
                                                "\nimplied price: " + value2);
                                        }
                                    }
                                }
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 51
0
        public void testVega()
        {
            //"Testing swaption vega...";

            CommonVars vars = new CommonVars();

            Settlement.Type[] types = { Settlement.Type.Physical, Settlement.Type.Cash };
            double[] strikes = { 0.03, 0.04, 0.05, 0.06, 0.07 };
            double[] vols = { 0.01, 0.20, 0.30, 0.70, 0.90 };
            double shift = 1e-8;
            for (int i=0; i<exercises.Length ; i++) {
                Date exerciseDate = vars.calendar.advance(vars.today, exercises[i]);
                // A VERIFIER§§§§
                Date startDate = vars.calendar.advance(exerciseDate,
                                                   vars.settlementDays, TimeUnit.Days);
                for (int j=0; j<lengths.Length ; j++) {
                    for (int t=0; t<strikes.Length ; t++) {
                        for (int h=0; h<type.Length ; h++) {
                            VanillaSwap swap =
                                new MakeVanillaSwap(lengths[j], vars.index, strikes[t])
                                        .withEffectiveDate(startDate)
                                        .withFloatingLegSpread(0.0)
                                        .withType(type[h]);
                            for (int u=0; u<vols.Length ; u++) {
                                Swaption swaption =
                                    vars.makeSwaption(swap, exerciseDate,
                                                      vols[u], types[h]);
                                // FLOATING_POINT_EXCEPTION
                                Swaption swaption1 =
                                    vars.makeSwaption(swap, exerciseDate,
                                                      vols[u]-shift, types[h]);
                                Swaption swaption2 =
                                    vars.makeSwaption(swap, exerciseDate,
                                                      vols[u]+shift, types[h]);

                                double swaptionNPV = swaption.NPV();
                                double numericalVegaPerPoint =
                                    (swaption2.NPV()-swaption1.NPV())/(200.0*shift);
                                // check only relevant vega
                                if (numericalVegaPerPoint/swaptionNPV>1.0e-7) {
                                    double analyticalVegaPerPoint =
                                        (double)swaption.result("vega")/100.0;
                                    double discrepancy = Math.Abs(analyticalVegaPerPoint
                                        - numericalVegaPerPoint);
                                    discrepancy /= numericalVegaPerPoint;
                                    double tolerance = 0.015;
                                    if (discrepancy > tolerance)
                                        Assert.Fail ("failed to compute swaption vega:" +
                                            "\n  option tenor:    " + exercises[i] +
                                            "\n  volatility:      " + vols[u] +
                                            "\n  option type:     " + swaption.type() +
                                            "\n  swap tenor:      " + lengths[j] +
                                            "\n  strike:          " + strikes[t] +
                                            "\n  settlement:      " + types[h] +
                                            "\n  nominal:         " + swaption.underlyingSwap().nominal +
                                            "\n  npv:             " + swaptionNPV +
                                            "\n  calculated vega: " + analyticalVegaPerPoint +
                                            "\n  expected vega:   " + numericalVegaPerPoint +
                                            "\n  discrepancy:     " + discrepancy +
                                            "\n  tolerance:       " + tolerance);
                                }
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 52
0
        public void testStrikeDependency()
        {
            //("Testing swaption dependency on strike......");

            CommonVars vars = new CommonVars();
            double[] strikes = new double[] { 0.03, 0.04, 0.05, 0.06, 0.07 };

            for (int i = 0; i <  exercises.Length; i++)  {
                for (int j = 0; j < lengths.Length; j++) {
                    for (int k=0; k < type.Length ; k++) {
                        Date exerciseDate = vars.calendar.advance(vars.today,
                                                          exercises[i]);
                        Date startDate = vars.calendar.advance(exerciseDate,
                                         vars.settlementDays, TimeUnit.Days);
                        // store the results for different rates...
                        List<double> values = new InitializedList<double>(strikes.Length);
                        List<double> values_cash = new InitializedList<double>(strikes.Length);
                        double vol = 0.20;

                        for (int l=0; l< strikes.Length ; l++) {
                            VanillaSwap swap    = new MakeVanillaSwap(lengths[j], vars.index, strikes[l])
                                                    .withEffectiveDate(startDate)
                                                    .withFloatingLegSpread(0.0)
                                                    .withType(type[k]);
                            Swaption swaption   = vars.makeSwaption(swap,exerciseDate,vol);
                            // FLOATING_POINT_EXCEPTION
                            values[l]=swaption.NPV();
                            Swaption swaption_cash = vars.makeSwaption( swap,exerciseDate,vol,
                                                                        Settlement.Type.Cash);
                            values_cash[l]=swaption_cash.NPV();
                        }

                        // and check that they go the right way
                        if (type[k]==VanillaSwap.Type.Payer) {
                            for (int z = 0; z < values.Count - 1; z++)
                            {
                                if( values[z]<values[z+1]){
                                Assert.Fail("NPV of Payer swaption with delivery settlement"+
                                            "is increasing with the strike:" +
                                            "\noption tenor: " + exercises[i] +
                                            "\noption date:  " + exerciseDate +
                                            "\nvolatility:   " + vol +
                                            "\nswap tenor:   " + lengths[j] +
                                            "\nvalue:        " + values[z  ] +" at strike: " + strikes[z  ] +
                                            "\nvalue:        " + values[z+1] + " at strike: " + strikes[z+1]);
                                }
                            }
                            for (int z = 0; z < values_cash.Count - 1; z++)
                            {
                                if (values_cash[z] < values_cash[z + 1])
                                {
                                    Assert.Fail("NPV of Payer swaption with cash settlement" +
                                        "is increasing with the strike:" +
                                        "\noption tenor: " + exercises[i] +
                                        "\noption date:  " + exerciseDate +
                                        "\nvolatility:   " + vol +
                                        "\nswap tenor:   " + lengths[j] +
                                        "\nvalue:        " + values_cash[z] + " at strike: " + strikes[z] +
                                        "\nvalue:        " + values_cash[z + 1] + " at strike: " + strikes[z + 1]);
                                }
                            }
                        }
                        else {
                            for (int z = 0; z < values.Count - 1; z++){
                                if (values[z] > values[z+1]){
                                    Assert.Fail("NPV of Receiver swaption with delivery settlement" +
                                                "is increasing with the strike:" +
                                                "\noption tenor: " + exercises[i] +
                                                "\noption date:  " + exerciseDate +
                                                "\nvolatility:   " + vol +
                                                "\nswap tenor:   " + lengths[j] +
                                                "\nvalue:        " + values[z] + " at strike: " + strikes[z] +
                                                "\nvalue:        " + values[z + 1] + " at strike: " + strikes[z + 1]);
                                }
                            }
                            for (int z = 0; z < values_cash.Count - 1; z++)
                            {
                                if (values[z] > values[z+1])
                                {
                                    Assert.Fail("NPV of Receiver swaption with cash settlement" +
                                        "is increasing with the strike:" +
                                        "\noption tenor: " + exercises[i] +
                                        "\noption date:  " + exerciseDate +
                                        "\nvolatility:   " + vol +
                                        "\nswap tenor:   " + lengths[j] +
                                        "\nvalue:        " + values_cash[z] + " at strike: " + strikes[z] +
                                        "\nvalue:        " + values_cash[z + 1] + " at strike: " + strikes[z + 1]);
                                }
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 53
0
        public void testZSpreadWithGenericBond()
        {
            // Testing clean and dirty price with null Z-spread against theoretical prices...

             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;
             int fixingDays = 2;
             bool inArrears = false;

             // Fixed Underlying bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day

             Date fixedBondStartDate1 = new Date(4,Month.January,2005);
             Date fixedBondMaturityDate1 = new Date(4,Month.January,2037);
             Schedule fixedBondSchedule1= new Schedule(fixedBondStartDate1,
                                    fixedBondMaturityDate1,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg1 = new FixedRateLeg(fixedBondSchedule1)
            .withCouponRates(0.04, new ActualActual(ActualActual.Convention.ISDA))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption1 = bondCalendar.adjust(fixedBondMaturityDate1,
                                                         BusinessDayConvention.Following);
             fixedBondLeg1.Add(new SimpleCashFlow(100.0, fixedbondRedemption1));
             Bond fixedBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount, fixedBondMaturityDate1, fixedBondStartDate1,
                  fixedBondLeg1);
             IPricingEngine bondEngine = new DiscountingBondEngine(vars.termStructure);
             fixedBond1.setPricingEngine(bondEngine);

             double fixedBondImpliedValue1 = fixedBond1.cleanPrice();
             Date fixedBondSettlementDate1= fixedBond1.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double fixedBondCleanPrice1 = BondFunctions.cleanPrice(fixedBond1, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Annual, fixedBondSettlementDate1);
             double tolerance = 1.0e-13;
             double error1 = Math.Abs(fixedBondImpliedValue1-fixedBondCleanPrice1);
             if (error1>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: "
                        + fixedBondImpliedValue1
                        + "\n  par asset swap spread: " + fixedBondCleanPrice1
                        + "\n  error:                 " + error1
                        + "\n  tolerance:             " + tolerance);
             }

             // Fixed Underlying bond (Isin: IT0006527060 IBRD 5 02/05/19)
             // maturity occurs on a business day

             Date fixedBondStartDate2 = new Date(5,Month.February,2005);
             Date fixedBondMaturityDate2 = new Date(5,Month.February,2019);
             Schedule fixedBondSchedule2= new Schedule(fixedBondStartDate2,
                                    fixedBondMaturityDate2,
                                    new Period(Frequency.Annual), bondCalendar,
                                    BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                    DateGeneration.Rule.Backward, false);
             List<CashFlow> fixedBondLeg2 = new FixedRateLeg(fixedBondSchedule2)
            .withCouponRates(0.05, new Thirty360(Thirty360.Thirty360Convention.BondBasis))
            .withNotionals(vars.faceAmount);
             Date fixedbondRedemption2 = bondCalendar.adjust(fixedBondMaturityDate2, BusinessDayConvention.Following);
             fixedBondLeg2.Add(new SimpleCashFlow(100.0, fixedbondRedemption2));
             Bond fixedBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  fixedBondMaturityDate2, fixedBondStartDate2, fixedBondLeg2);
             fixedBond2.setPricingEngine(bondEngine);

             double fixedBondImpliedValue2 = fixedBond2.cleanPrice();
             Date fixedBondSettlementDate2= fixedBond2.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve

             double fixedBondCleanPrice2 = BondFunctions.cleanPrice(fixedBond2, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Annual, fixedBondSettlementDate2);
             double error3 = Math.Abs(fixedBondImpliedValue2-fixedBondCleanPrice2);
             if (error3>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: "
                        + fixedBondImpliedValue2
                        + "\n  par asset swap spread: " + fixedBondCleanPrice2
                        + "\n  error:                 " + error3
                        + "\n  tolerance:             " + tolerance);
             }

             // FRN Underlying bond (Isin: IT0003543847 ISPIM 0 09/29/13)
             // maturity doesn't occur on a business day

             Date floatingBondStartDate1 = new Date(29,Month.September,2003);
             Date floatingBondMaturityDate1 = new Date(29,Month.September,2013);
             Schedule floatingBondSchedule1= new Schedule(floatingBondStartDate1,
                                       floatingBondMaturityDate1,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg1 = new IborLeg(floatingBondSchedule1, vars.iborIndex)
            .withPaymentDayCounter(new Actual360())
            .withFixingDays(fixingDays)
            .withSpreads(0.0056)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption1 =
            bondCalendar.adjust(floatingBondMaturityDate1, BusinessDayConvention.Following);
             floatingBondLeg1.Add(new SimpleCashFlow(100.0, floatingbondRedemption1));
             Bond floatingBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  floatingBondMaturityDate1, floatingBondStartDate1,
                  floatingBondLeg1);
             floatingBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond1.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(27,Month.March,2007), 0.0402);
             double floatingBondImpliedValue1 = floatingBond1.cleanPrice();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double floatingBondCleanPrice1 = BondFunctions.cleanPrice(floatingBond1, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Semiannual, fixedBondSettlementDate1);
             double error5 = Math.Abs(floatingBondImpliedValue1-floatingBondCleanPrice1);
             if (error5>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: " +
                        floatingBondImpliedValue1
                        + "\n  par asset swap spread: " + floatingBondCleanPrice1
                        + "\n  error:                 " + error5
                        + "\n  tolerance:             " + tolerance);
             }

             // FRN Underlying bond (Isin: XS0090566539 COE 0 09/24/18)
             // maturity occurs on a business day

             Date floatingBondStartDate2 = new Date(24,Month.September,2004);
             Date floatingBondMaturityDate2 = new Date(24,Month.September,2018);
             Schedule floatingBondSchedule2 = new Schedule(floatingBondStartDate2,
                                       floatingBondMaturityDate2,
                                       new Period(Frequency.Semiannual), bondCalendar,
                                       BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                       DateGeneration.Rule.Backward, false);
             List<CashFlow> floatingBondLeg2 = new IborLeg(floatingBondSchedule2, vars.iborIndex)
            .withFixingDays(fixingDays)
            .withSpreads(0.0025)
            .withPaymentDayCounter(new Actual360())
            .inArrears(inArrears)
            .withPaymentAdjustment(BusinessDayConvention.ModifiedFollowing)
            .withNotionals(vars.faceAmount);
             Date floatingbondRedemption2 = bondCalendar.adjust(floatingBondMaturityDate2, BusinessDayConvention.ModifiedFollowing);
             floatingBondLeg2.Add(new SimpleCashFlow(100.0, floatingbondRedemption2));
             Bond floatingBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount, floatingBondMaturityDate2,
            floatingBondStartDate2, floatingBondLeg2);
             floatingBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond2.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(22,Month.March,2007), 0.04013);
             double floatingBondImpliedValue2 = floatingBond2.cleanPrice();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double floatingBondCleanPrice2 = BondFunctions.cleanPrice(floatingBond2, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Semiannual,  fixedBondSettlementDate1);
             double error7 = Math.Abs(floatingBondImpliedValue2-floatingBondCleanPrice2);
             if (error7>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: " +
                        floatingBondImpliedValue2
                        + "\n  par asset swap spread: " + floatingBondCleanPrice2
                        + "\n  error:                 " + error7
                        + "\n  tolerance:             " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0228052402 CRDIT 0 8/22/20)
             // maturity doesn't occur on a business day

             Date cmsBondStartDate1 = new Date(22,Month.August,2005);
             Date cmsBondMaturityDate1 = new Date(22,Month.August,2020);
             Schedule cmsBondSchedule1= new Schedule(cmsBondStartDate1,
                                 cmsBondMaturityDate1,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg1 = new CmsLeg(cmsBondSchedule1, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withCaps(0.055)
            .withFloors(0.025)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption1 = bondCalendar.adjust(cmsBondMaturityDate1, BusinessDayConvention.Following);
             cmsBondLeg1.Add(new SimpleCashFlow(100.0, cmsbondRedemption1));
             Bond cmsBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount, cmsBondMaturityDate1, cmsBondStartDate1,
            cmsBondLeg1);
             cmsBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond1.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(18,Month.August,2006), 0.04158);
             double cmsBondImpliedValue1 = cmsBond1.cleanPrice();
             Date cmsBondSettlementDate1= cmsBond1.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double cmsBondCleanPrice1 = BondFunctions.cleanPrice(cmsBond1, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Annual,
            cmsBondSettlementDate1);
             double error9 = Math.Abs(cmsBondImpliedValue1-cmsBondCleanPrice1);
             if (error9>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: " + cmsBondImpliedValue1
                        + "\n  par asset swap spread: " + cmsBondCleanPrice1
                        + "\n  error:                 " + error9
                        + "\n  tolerance:             " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0218766664 ISPIM 0 5/6/15)
             // maturity occurs on a business day

             Date cmsBondStartDate2 = new Date(06,Month.May,2005);
             Date cmsBondMaturityDate2 = new Date(06,Month.May,2015);
             Schedule cmsBondSchedule2= new Schedule(cmsBondStartDate2,
                                 cmsBondMaturityDate2,
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             List<CashFlow> cmsBondLeg2 = new CmsLeg(cmsBondSchedule2, vars.swapIndex)
            .withPaymentDayCounter(new Thirty360())
            .withFixingDays(fixingDays)
            .withGearings(0.84)
            .inArrears(inArrears)
            .withNotionals(vars.faceAmount);
             Date cmsbondRedemption2 = bondCalendar.adjust(cmsBondMaturityDate2,  BusinessDayConvention.Following);
             cmsBondLeg2.Add(new SimpleCashFlow(100.0, cmsbondRedemption2));
             Bond cmsBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  cmsBondMaturityDate2, cmsBondStartDate2, cmsBondLeg2);
             cmsBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond2.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing(new Date(04,Month.May,2006), 0.04217);
             double cmsBondImpliedValue2 = cmsBond2.cleanPrice();
             Date cmsBondSettlementDate2= cmsBond2.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double cmsBondCleanPrice2 = BondFunctions.cleanPrice(cmsBond2, vars.termStructure, vars.spread,
            new Actual365Fixed(), vars.compounding, Frequency.Annual,
            cmsBondSettlementDate2);
             double error11 = Math.Abs(cmsBondImpliedValue2-cmsBondCleanPrice2);
             if (error11>tolerance) {
            Assert.Fail("wrong clean price for fixed bond:"
                        + "\n  market asset swap spread: " + cmsBondImpliedValue2
                        + "\n  par asset swap spread: " + cmsBondCleanPrice2
                        + "\n  error:                 " + error11
                        + "\n  tolerance:             " + tolerance);
             }

             // Zero Coupon bond (Isin: DE0004771662 IBRD 0 12/20/15)
             // maturity doesn't occur on a business day

             Date zeroCpnBondStartDate1 = new Date(19,Month.December,1985);
             Date zeroCpnBondMaturityDate1 = new Date(20,Month.December,2015);
             Date zeroCpnBondRedemption1 = bondCalendar.adjust(zeroCpnBondMaturityDate1,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg1 = new List<CashFlow>{new SimpleCashFlow(100.0, zeroCpnBondRedemption1)};
             Bond zeroCpnBond1 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  zeroCpnBondMaturityDate1, zeroCpnBondStartDate1, zeroCpnBondLeg1);
             zeroCpnBond1.setPricingEngine(bondEngine);

             double zeroCpnBondImpliedValue1 = zeroCpnBond1.cleanPrice();
             Date zeroCpnBondSettlementDate1= zeroCpnBond1.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double zeroCpnBondCleanPrice1 =
            BondFunctions.cleanPrice(zeroCpnBond1,
                                 vars.termStructure,
                                 vars.spread,
                                 new Actual365Fixed(),
                                 vars.compounding, Frequency.Annual,
                                 zeroCpnBondSettlementDate1);
             double error13 = Math.Abs(zeroCpnBondImpliedValue1-zeroCpnBondCleanPrice1);
             if (error13>tolerance) {
            Assert.Fail("wrong clean price for zero coupon bond:"
                        + "\n  zero cpn implied value: " +
                        zeroCpnBondImpliedValue1
                        + "\n  zero cpn price: " + zeroCpnBondCleanPrice1
                        + "\n  error:                 " + error13
                        + "\n  tolerance:             " + tolerance);
             }

             // Zero Coupon bond (Isin: IT0001200390 ISPIM 0 02/17/28)
             // maturity occurs on a business day

             Date zeroCpnBondStartDate2 = new Date(17,Month.February,1998);
             Date zeroCpnBondMaturityDate2 = new Date(17,Month.February,2028);
             Date zerocpbondRedemption2 = bondCalendar.adjust(zeroCpnBondMaturityDate2,
                                                         BusinessDayConvention.Following);
             List<CashFlow> zeroCpnBondLeg2 = new List<CashFlow>{new SimpleCashFlow(100.0, zerocpbondRedemption2)};
             Bond zeroCpnBond2 = new Bond(settlementDays, bondCalendar, vars.faceAmount,
                  zeroCpnBondMaturityDate2, zeroCpnBondStartDate2, zeroCpnBondLeg2);
             zeroCpnBond2.setPricingEngine(bondEngine);

             double zeroCpnBondImpliedValue2 = zeroCpnBond2.cleanPrice();
             Date zeroCpnBondSettlementDate2= zeroCpnBond2.settlementDate();
             // standard market conventions:
             // bond's frequency + coumpounding and daycounter of the YieldCurve
             double zeroCpnBondCleanPrice2 =
            BondFunctions.cleanPrice(zeroCpnBond2,
                                 vars.termStructure,
                                 vars.spread,
                                 new Actual365Fixed(),
                                 vars.compounding, Frequency.Annual,
                                 zeroCpnBondSettlementDate2);
             double error15 = Math.Abs(zeroCpnBondImpliedValue2-zeroCpnBondCleanPrice2);
             if (error15>tolerance) {
            Assert.Fail("wrong clean price for zero coupon bond:"
                        + "\n  zero cpn implied value: " +
                        zeroCpnBondImpliedValue2
                        + "\n  zero cpn price: " + zeroCpnBondCleanPrice2
                        + "\n  error:                 " + error15
                        + "\n  tolerance:             " + tolerance);
             }
        }
Exemplo n.º 54
0
        public void testCached()
        {
            // ("Testing bond price/yield calculation against cached values...");

             CommonVars vars = new CommonVars();

             // with implicit settlement calculation:
             Date today = new Date(22, Month.November, 2004);
             Settings.setEvaluationDate(today);

             Calendar bondCalendar = new NullCalendar();
             DayCounter bondDayCount = new ActualActual(ActualActual.Convention.ISMA);
             int settlementDays = 1;

             var discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(today, new SimpleQuote(0.03), new Actual360()));

             // actual market values from the evaluation date
             Frequency freq = Frequency.Semiannual;
             Schedule sch1 = new Schedule(new Date(31, Month.October, 2004), new Date(31, Month.October, 2006), new Period(freq),
                                      bondCalendar, BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                      DateGeneration.Rule.Backward, false);

             FixedRateBond bond1 = new FixedRateBond(settlementDays, vars.faceAmount, sch1, new List<double>() { 0.025 },
                                 bondDayCount, BusinessDayConvention.ModifiedFollowing, 100.0, new Date(1, Month.November, 2004));

             IPricingEngine bondEngine = new DiscountingBondEngine(discountCurve);
             bond1.setPricingEngine(bondEngine);

             double marketPrice1 = 99.203125;
             double marketYield1 = 0.02925;

             Schedule sch2 = new Schedule(new Date(15, Month.November, 2004), new Date(15, Month.November, 2009), new Period(freq),
                                      bondCalendar, BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                      DateGeneration.Rule.Backward, false);

             FixedRateBond bond2 = new FixedRateBond(settlementDays, vars.faceAmount, sch2, new List<double>() { 0.035 },
                                      bondDayCount, BusinessDayConvention.ModifiedFollowing,
                                      100.0, new Date(15, Month.November, 2004));

             bond2.setPricingEngine(bondEngine);

             double marketPrice2 = 99.6875;
             double marketYield2 = 0.03569;

             // calculated values
             double cachedPrice1a = 99.204505, cachedPrice2a = 99.687192;
             double cachedPrice1b = 98.943393, cachedPrice2b = 101.986794;
             double cachedYield1a = 0.029257, cachedYield2a = 0.035689;
             double cachedYield1b = 0.029045, cachedYield2b = 0.035375;
             double cachedYield1c = 0.030423, cachedYield2c = 0.030432;

             // check
             double tolerance = 1.0e-6;
             double price, yield;

             price = bond1.cleanPrice(marketYield1, bondDayCount, Compounding.Compounded, freq);
             if (Math.Abs(price - cachedPrice1a) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price
                       + "\n    expected:   " + cachedPrice1a
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (price - cachedPrice1a));
             }

             price = bond1.cleanPrice();
             if (Math.Abs(price - cachedPrice1b) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price
                       + "\n    expected:   " + cachedPrice1b
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (price - cachedPrice1b));
             }

             yield = bond1.yield(marketPrice1, bondDayCount, Compounding.Compounded, freq);
             if (Math.Abs(yield - cachedYield1a) > tolerance)
             {
            Assert.Fail("failed to reproduce cached compounded yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield1a
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield1a));
             }

             yield = bond1.yield(marketPrice1, bondDayCount, Compounding.Continuous, freq);
             if (Math.Abs(yield - cachedYield1b) > tolerance)
             {
            Assert.Fail("failed to reproduce cached continuous yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield1b
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield1b));
             }

             yield = bond1.yield(bondDayCount, Compounding.Continuous, freq);
             if (Math.Abs(yield - cachedYield1c) > tolerance)
             {
            Assert.Fail("failed to reproduce cached continuous yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield1c
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield1c));
             }

             price = bond2.cleanPrice(marketYield2, bondDayCount, Compounding.Compounded, freq);
             if (Math.Abs(price - cachedPrice2a) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price
                       + "\n    expected:   " + cachedPrice2a
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (price - cachedPrice2a));
             }

             price = bond2.cleanPrice();
             if (Math.Abs(price - cachedPrice2b) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price
                       + "\n    expected:   " + cachedPrice2b
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (price - cachedPrice2b));
             }

             yield = bond2.yield(marketPrice2, bondDayCount, Compounding.Compounded, freq);
             if (Math.Abs(yield - cachedYield2a) > tolerance)
             {
            Assert.Fail("failed to reproduce cached compounded yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield2a
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield2a));
             }

             yield = bond2.yield(marketPrice2, bondDayCount, Compounding.Continuous, freq);
             if (Math.Abs(yield - cachedYield2b) > tolerance)
             {
            Assert.Fail("failed to reproduce cached continuous yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield2b
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield2b));
             }

             yield = bond2.yield(bondDayCount, Compounding.Continuous, freq);
             if (Math.Abs(yield - cachedYield2c) > tolerance)
             {
            Assert.Fail("failed to reproduce cached continuous yield:"
                       + "\n    calculated: " + yield
                       + "\n    expected:   " + cachedYield2c
                       + "\n    tolerance:  " + tolerance
                       + "\n    error:      " + (yield - cachedYield2c));
             }

             // with explicit settlement date:
             Schedule sch3 = new Schedule(new Date(30, Month.November, 2004), new Date(30, Month.November, 2006), new Period(freq),
                                      new UnitedStates(UnitedStates.Market.GovernmentBond), BusinessDayConvention.Unadjusted,
                                      BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);

             FixedRateBond bond3 = new FixedRateBond(settlementDays, vars.faceAmount, sch3, new List<double>() { 0.02875 },
                             new ActualActual(ActualActual.Convention.ISMA),
                             BusinessDayConvention.ModifiedFollowing, 100.0, new Date(30, Month.November, 2004));

             bond3.setPricingEngine(bondEngine);

             double marketYield3 = 0.02997;

             Date settlementDate = new Date(30, Month.November, 2004);
             double cachedPrice3 = 99.764759;

             price = bond3.cleanPrice(marketYield3, bondDayCount, Compounding.Compounded, freq, settlementDate);
             if (Math.Abs(price - cachedPrice3) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price + ""
                       + "\n    expected:   " + cachedPrice3 + ""
                       + "\n    error:      " + (price - cachedPrice3));
             }

             // this should give the same result since the issue date is the
             // earliest possible settlement date
             Settings.setEvaluationDate(new Date(22, Month.November, 2004));

             price = bond3.cleanPrice(marketYield3, bondDayCount, Compounding.Compounded, freq);
             if (Math.Abs(price - cachedPrice3) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:"
                       + "\n    calculated: " + price + ""
                       + "\n    expected:   " + cachedPrice3 + ""
                       + "\n    error:      " + (price - cachedPrice3));
             }
        }
Exemplo n.º 55
0
        public void testImpliedValue()
        {
            // Testing implied bond value against asset-swap fair price with null spread
             CommonVars vars = new CommonVars();

             Calendar bondCalendar = new TARGET();
             int settlementDays = 3;
             int fixingDays = 2;
             bool payFixedRate = true;
             bool parAssetSwap = true;
             bool inArrears = false;

             // Fixed Underlying bond (Isin: DE0001135275 DBR 4 01/04/37)
             // maturity doesn't occur on a business day

             Schedule fixedBondSchedule1 = new Schedule( new Date(4,Month.January,2005),
                                                     new Date(4,Month.January,2037),
                                                     new Period(Frequency.Annual), bondCalendar,
                                                     BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                                     DateGeneration.Rule.Backward, false);
             Bond fixedBond1 = new FixedRateBond(settlementDays, vars.faceAmount,
                                                fixedBondSchedule1,
                                                new List<double>(){0.04},
                                                new ActualActual(ActualActual.Convention.ISDA),
                                                BusinessDayConvention.Following,
                                                100.0, new Date(4,Month.January,2005));

             IPricingEngine bondEngine = new DiscountingBondEngine(vars.termStructure);
             IPricingEngine swapEngine = new DiscountingSwapEngine(vars.termStructure);
             fixedBond1.setPricingEngine(bondEngine);

             double fixedBondPrice1 = fixedBond1.cleanPrice();
             AssetSwap fixedBondAssetSwap1 = new AssetSwap(payFixedRate, fixedBond1, fixedBondPrice1, vars.iborIndex, vars.spread,
                                                       null, vars.iborIndex.dayCounter(), parAssetSwap);
             fixedBondAssetSwap1.setPricingEngine(swapEngine);
             double fixedBondAssetSwapPrice1 = fixedBondAssetSwap1.fairCleanPrice();
             double tolerance = 1.0e-13;
             double error1 = Math.Abs(fixedBondAssetSwapPrice1-fixedBondPrice1);

             if (error1>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for fixed bond:" +
                        "\n  bond's clean price:    " + fixedBondPrice1 +
                        "\n  asset swap fair price: " + fixedBondAssetSwapPrice1 +
                        "\n  error:                 " + error1 +
                        "\n  tolerance:             " + tolerance);
             }

             // Fixed Underlying bond (Isin: IT0006527060 IBRD 5 02/05/19)
             // maturity occurs on a business day

             Schedule fixedBondSchedule2 = new Schedule( new Date(5,Month.February,2005),
                                                     new Date(5,Month.February,2019),
                                                     new Period(Frequency.Annual), bondCalendar,
                                                     BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                                     DateGeneration.Rule.Backward, false);
             Bond fixedBond2 = new FixedRateBond(settlementDays, vars.faceAmount,
                                             fixedBondSchedule2,
                                             new List<double>(){0.05},
                                             new Thirty360(Thirty360.Thirty360Convention.BondBasis),
                                             BusinessDayConvention.Following,
                                             100.0, new Date(5,Month.February,2005));

             fixedBond2.setPricingEngine(bondEngine);

             double fixedBondPrice2 = fixedBond2.cleanPrice();
             AssetSwap fixedBondAssetSwap2 = new AssetSwap(payFixedRate, fixedBond2, fixedBondPrice2, vars.iborIndex, vars.spread,
                                                       null, vars.iborIndex.dayCounter(),  parAssetSwap);
             fixedBondAssetSwap2.setPricingEngine(swapEngine);
             double fixedBondAssetSwapPrice2 = fixedBondAssetSwap2.fairCleanPrice();
             double error2 = Math.Abs(fixedBondAssetSwapPrice2-fixedBondPrice2);

             if (error2>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for fixed bond:" +
                        "\n  bond's clean price:    " + fixedBondPrice2 +
                        "\n  asset swap fair price: " + fixedBondAssetSwapPrice2 +
                        "\n  error:                 " + error2 +
                        "\n  tolerance:             " + tolerance);
             }

             // FRN Underlying bond (Isin: IT0003543847 ISPIM 0 09/29/13)
             // maturity doesn't occur on a business day

             Schedule floatingBondSchedule1 = new Schedule( new Date(29,Month.September,2003),
                                                        new Date(29,Month.September,2013),
                                                        new Period(Frequency.Semiannual), bondCalendar,
                                                        BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                                        DateGeneration.Rule.Backward, false);

             Bond floatingBond1 = new FloatingRateBond(settlementDays, vars.faceAmount,
                                                   floatingBondSchedule1,
                                                   vars.iborIndex, new Actual360(),
                                                   BusinessDayConvention.Following, fixingDays,
                                                   new List<double>(){1},
                                                   new List<double>(){0.0056},
                                                   new List<double>(),
                                                   new List<double>(),
                                                   inArrears,
                                                   100.0, new Date(29,Month.September,2003));

             floatingBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond1.cashflows(), vars.pricer);
             vars.iborIndex.addFixing(new Date(27,Month.March,2007), 0.0402);
             double floatingBondPrice1 = floatingBond1.cleanPrice();
             AssetSwap floatingBondAssetSwap1 = new AssetSwap(payFixedRate, floatingBond1, floatingBondPrice1, vars.iborIndex, vars.spread,
                                                          null, vars.iborIndex.dayCounter(), parAssetSwap);
             floatingBondAssetSwap1.setPricingEngine(swapEngine);
             double floatingBondAssetSwapPrice1 = floatingBondAssetSwap1.fairCleanPrice();
             double error3 = Math.Abs(floatingBondAssetSwapPrice1-floatingBondPrice1);

             if (error3>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for floater:" +
                        "\n  bond's clean price:    " + floatingBondPrice1 +
                        "\n  asset swap fair price: " + floatingBondAssetSwapPrice1 +
                        "\n  error:                 " + error3 +
                        "\n  tolerance:             " + tolerance);
             }

             // FRN Underlying bond (Isin: XS0090566539 COE 0 09/24/18)
             // maturity occurs on a business day

             Schedule floatingBondSchedule2 = new Schedule( new Date(24,Month.September,2004),
                                                        new Date(24,Month.September,2018),
                                                        new Period(Frequency.Semiannual), bondCalendar,
                                                        BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                                        DateGeneration.Rule.Backward, false);
             Bond floatingBond2 = new FloatingRateBond( settlementDays, vars.faceAmount,
                                                    floatingBondSchedule2,
                                                    vars.iborIndex, new Actual360(),
                                                    BusinessDayConvention.ModifiedFollowing, fixingDays,
                                                    new List<double>(){1},
                                                    new List<double>(){0.0025},
                                                    new List<double>(),
                                                    new List<double>(),
                                                    inArrears,
                                                    100.0, new Date(24,Month.September,2004));

             floatingBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(floatingBond2.cashflows(), vars.pricer);
             vars.iborIndex.addFixing( new Date(22,Month.March,2007), 0.04013);
             double currentCoupon=0.04013+0.0025;
             double floatingCurrentCoupon= floatingBond2.nextCouponRate();
             double error4= Math.Abs(floatingCurrentCoupon-currentCoupon);
             if (error4>tolerance) {
            Assert.Fail("wrong current coupon is returned for floater bond:" +
                        "\n  bond's calculated current coupon:      " +
                        currentCoupon +
                        "\n  current coupon asked to the bond: " +
                        floatingCurrentCoupon +
                        "\n  error:                 " + error4 +
                        "\n  tolerance:             " + tolerance);
             }

             double floatingBondPrice2 = floatingBond2.cleanPrice();
             AssetSwap floatingBondAssetSwap2 = new AssetSwap(payFixedRate,floatingBond2, floatingBondPrice2, vars.iborIndex, vars.spread,
                                                          null, vars.iborIndex.dayCounter(), parAssetSwap);
             floatingBondAssetSwap2.setPricingEngine(swapEngine);
             double floatingBondAssetSwapPrice2 = floatingBondAssetSwap2.fairCleanPrice();
             double error5 = Math.Abs(floatingBondAssetSwapPrice2-floatingBondPrice2);

             if (error5>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for floater:" +
                        "\n  bond's clean price:    " + floatingBondPrice2 +
                        "\n  asset swap fair price: " + floatingBondAssetSwapPrice2 +
                        "\n  error:                 " + error5 +
                        "\n  tolerance:             " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0228052402 CRDIT 0 8/22/20)
             // maturity doesn't occur on a business day

             Schedule cmsBondSchedule1 = new Schedule( new Date(22,Month.August,2005),
                                 new Date(22,Month.August,2020),
                                 new Period(Frequency.Annual), bondCalendar,
                                 BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                 DateGeneration.Rule.Backward, false);
             Bond cmsBond1 = new CmsRateBond(settlementDays, vars.faceAmount,
                                             cmsBondSchedule1,
                                             vars.swapIndex, new Thirty360(),
                                             BusinessDayConvention.Following, fixingDays,
                                             new List<double>(){1.0},
                                             new List<double>(){0.0},
                                             new List<double>(){0.055},
                                             new List<double>(){0.025},
                                             inArrears,
                                             100.0, new Date(22,Month.August,2005));

             cmsBond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond1.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing( new Date(18,Month.August,2006), 0.04158);
             double cmsBondPrice1 = cmsBond1.cleanPrice();
             AssetSwap cmsBondAssetSwap1 = new AssetSwap(payFixedRate, cmsBond1, cmsBondPrice1, vars.iborIndex, vars.spread,
                                                     null,vars.iborIndex.dayCounter(), parAssetSwap);
             cmsBondAssetSwap1.setPricingEngine(swapEngine);
             double cmsBondAssetSwapPrice1 = cmsBondAssetSwap1.fairCleanPrice();
             double error6 = Math.Abs(cmsBondAssetSwapPrice1-cmsBondPrice1);

             if (error6>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for cms bond:" +
                        "\n  bond's clean price:    " + cmsBondPrice1 +
                        "\n  asset swap fair price: " + cmsBondAssetSwapPrice1 +
                        "\n  error:                 " + error6 +
                        "\n  tolerance:             " + tolerance);
             }

             // CMS Underlying bond (Isin: XS0218766664 ISPIM 0 5/6/15)
             // maturity occurs on a business day

             Schedule cmsBondSchedule2 = new Schedule( new Date(06,Month.May,2005),
                                                   new Date(06,Month.May,2015),
                                                   new Period(Frequency.Annual), bondCalendar,
                                                   BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                                                   DateGeneration.Rule.Backward, false);
            Bond cmsBond2 = new CmsRateBond(settlementDays, vars.faceAmount, cmsBondSchedule2,
                        vars.swapIndex, new Thirty360(),
                        BusinessDayConvention.Following, fixingDays,
                        new List<double>(){0.84}, new List<double>(){0.0},
                        new List<double>(), new List<double>(),
                        inArrears,
                        100.0, new Date(06,Month.May,2005));

             cmsBond2.setPricingEngine(bondEngine);

             Utils.setCouponPricer(cmsBond2.cashflows(), vars.cmspricer);
             vars.swapIndex.addFixing( new Date(04,Month.May,2006), 0.04217);
             double cmsBondPrice2 = cmsBond2.cleanPrice();
             AssetSwap cmsBondAssetSwap2 = new AssetSwap(payFixedRate,cmsBond2, cmsBondPrice2, vars.iborIndex, vars.spread,
                                                     null, vars.iborIndex.dayCounter(), parAssetSwap);
             cmsBondAssetSwap2.setPricingEngine(swapEngine);
             double cmsBondAssetSwapPrice2 = cmsBondAssetSwap2.fairCleanPrice();
             double error7 = Math.Abs(cmsBondAssetSwapPrice2-cmsBondPrice2);

             if (error7>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for cms bond:" +
                        "\n  bond's clean price:    " + cmsBondPrice2 +
                        "\n  asset swap fair price: " + cmsBondAssetSwapPrice2 +
                        "\n  error:                 " + error7 +
                        "\n  tolerance:             " + tolerance);
             }

             // Zero Coupon bond (Isin: DE0004771662 IBRD 0 12/20/15)
             // maturity doesn't occur on a business day

             Bond zeroCpnBond1 = new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                                                new Date(20,Month.December,2015),
                                                BusinessDayConvention.Following,
                                                100.0, new Date(19,Month.December,1985));

             zeroCpnBond1.setPricingEngine(bondEngine);

             double zeroCpnBondPrice1 = zeroCpnBond1.cleanPrice();
             AssetSwap zeroCpnAssetSwap1 = new AssetSwap(payFixedRate,zeroCpnBond1, zeroCpnBondPrice1, vars.iborIndex, vars.spread,
                                                     null, vars.iborIndex.dayCounter(), parAssetSwap);
             zeroCpnAssetSwap1.setPricingEngine(swapEngine);
             double zeroCpnBondAssetSwapPrice1 = zeroCpnAssetSwap1.fairCleanPrice();
             double error8 = Math.Abs(cmsBondAssetSwapPrice1-cmsBondPrice1);

             if (error8>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for zero cpn bond:" +
                        "\n  bond's clean price:    " + zeroCpnBondPrice1 +
                        "\n  asset swap fair price: " + zeroCpnBondAssetSwapPrice1 +
                        "\n  error:                 " + error8 +
                        "\n  tolerance:             " + tolerance);
             }

             // Zero Coupon bond (Isin: IT0001200390 ISPIM 0 02/17/28)
             // maturity occurs on a business day

             Bond zeroCpnBond2 = new ZeroCouponBond(settlementDays, bondCalendar, vars.faceAmount,
                           new Date(17,Month.February,2028),
                           BusinessDayConvention.Following,
                           100.0, new Date(17,Month.February,1998));

             zeroCpnBond2.setPricingEngine(bondEngine);

             double zeroCpnBondPrice2 = zeroCpnBond2.cleanPrice();
             AssetSwap zeroCpnAssetSwap2 = new AssetSwap(payFixedRate, zeroCpnBond2, zeroCpnBondPrice2,  vars.iborIndex, vars.spread,
                                                     null,vars.iborIndex.dayCounter(), parAssetSwap);
             zeroCpnAssetSwap2.setPricingEngine(swapEngine);
             double zeroCpnBondAssetSwapPrice2 = zeroCpnAssetSwap2.fairCleanPrice();
             double error9 = Math.Abs(cmsBondAssetSwapPrice2-cmsBondPrice2);

             if (error9>tolerance) {
            Assert.Fail("wrong zero spread asset swap price for zero cpn bond:" +
                        "\n  bond's clean price:      " + zeroCpnBondPrice2 +
                        "\n  asset swap fair price:   " + zeroCpnBondAssetSwapPrice2 +
                        "\n  error:                   " + error9 +
                        "\n  tolerance:               " + tolerance);
             }
        }
Exemplo n.º 56
0
        public void testCachedFixed()
        {
            // "Testing fixed-coupon bond prices against cached values...");

             CommonVars vars = new CommonVars();

             Date today = new Date(22, Month.November, 2004);
             Settings.setEvaluationDate(today);

             int settlementDays = 1;

             var discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(today, 0.03, new Actual360()));

             double tolerance = 1.0e-6;

             // plain
             Schedule sch = new Schedule(new Date(30, Month.November, 2004),
                      new Date(30, Month.November, 2008), new Period(Frequency.Semiannual),
                      new UnitedStates(UnitedStates.Market.GovernmentBond),
                      BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false);

             FixedRateBond bond1 = new FixedRateBond(settlementDays, vars.faceAmount, sch, new List<double>() { 0.02875 },
                             new ActualActual(ActualActual.Convention.ISMA), BusinessDayConvention.ModifiedFollowing,
                             100.0, new Date(30, Month.November, 2004));

             IPricingEngine bondEngine = new DiscountingBondEngine(discountCurve);
             bond1.setPricingEngine(bondEngine);

             double cachedPrice1 = 99.298100;

             double price = bond1.cleanPrice();
             if (Math.Abs(price - cachedPrice1) > tolerance)
             {
            Console.WriteLine("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice1 + "\n"
                       + "    error:      " + (price - cachedPrice1));
             }

             // varying coupons
             InitializedList<double> couponRates = new InitializedList<double>(4);
             couponRates[0] = 0.02875;
             couponRates[1] = 0.03;
             couponRates[2] = 0.03125;
             couponRates[3] = 0.0325;

             FixedRateBond bond2 = new FixedRateBond(settlementDays, vars.faceAmount, sch, couponRates,
                               new ActualActual(ActualActual.Convention.ISMA),
                               BusinessDayConvention.ModifiedFollowing,
                               100.0, new Date(30, Month.November, 2004));

             bond2.setPricingEngine(bondEngine);

             double cachedPrice2 = 100.334149;

             price = bond2.cleanPrice();
             if (Math.Abs(price - cachedPrice2) > tolerance)
             {
            Console.WriteLine("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice2 + "\n"
                       + "    error:      " + (price - cachedPrice2));
             }

             // stub date
             Schedule sch3 = new Schedule(new Date(30, Month.November, 2004),
                       new Date(30, Month.March, 2009), new Period(Frequency.Semiannual),
                       new UnitedStates(UnitedStates.Market.GovernmentBond),
                       BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted, DateGeneration.Rule.Backward, false,
                       null, new Date(30, Month.November, 2008));

             FixedRateBond bond3 = new FixedRateBond(settlementDays, vars.faceAmount, sch3,
                               couponRates, new ActualActual(ActualActual.Convention.ISMA),
                               BusinessDayConvention.ModifiedFollowing,
                               100.0, new Date(30, Month.November, 2004));

             bond3.setPricingEngine(bondEngine);

             double cachedPrice3 = 100.382794;

             price = bond3.cleanPrice();
             if (Math.Abs(price - cachedPrice3) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice3 + "\n"
                       + "    error:      " + (price - cachedPrice3));
             }
        }
Exemplo n.º 57
0
        public void testCachedFloating()
        {
            // "Testing floating-rate bond prices against cached values...");

             CommonVars vars = new CommonVars();

             Date today = new Date(22, Month.November, 2004);
             Settings.setEvaluationDate(today);

             int settlementDays = 1;

             var riskFreeRate = new Handle<YieldTermStructure>(Utilities.flatRate(today, 0.025, new Actual360()));
             var discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(today, 0.03, new Actual360()));

             IborIndex index = new USDLibor(new Period(6, TimeUnit.Months), riskFreeRate);
             int fixingDays = 1;

             double tolerance = 1.0e-6;

             IborCouponPricer pricer = new BlackIborCouponPricer(new Handle<OptionletVolatilityStructure>());

             // plain
             Schedule sch = new Schedule(new Date(30, Month.November, 2004), new Date(30, Month.November, 2008),
                                     new Period(Frequency.Semiannual), new UnitedStates(UnitedStates.Market.GovernmentBond),
                                     BusinessDayConvention.ModifiedFollowing, BusinessDayConvention.ModifiedFollowing,
                                     DateGeneration.Rule.Backward, false);

             FloatingRateBond bond1 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                                index, new ActualActual(ActualActual.Convention.ISMA),
                                BusinessDayConvention.ModifiedFollowing, fixingDays,
                                new List<double>(), new List<double>(),
                                new List<double>(), new List<double>(),
                                false,
                                100.0, new Date(30, Month.November, 2004));

             IPricingEngine bondEngine = new DiscountingBondEngine(riskFreeRate);
             bond1.setPricingEngine(bondEngine);

             Utils.setCouponPricer(bond1.cashflows(), pricer);

            #if QL_USE_INDEXED_COUPON
            double cachedPrice1 = 99.874645;
            #else
             double cachedPrice1 = 99.874646;
            #endif

             double price = bond1.cleanPrice();
             if (Math.Abs(price - cachedPrice1) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice1 + "\n"
                       + "    error:      " + (price - cachedPrice1));
             }

             // different risk-free and discount curve
             FloatingRateBond bond2 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                                index, new ActualActual(ActualActual.Convention.ISMA),
                                BusinessDayConvention.ModifiedFollowing, fixingDays,
                                new List<double>(), new List<double>(),
                                new List<double>(), new List<double>(),
                                false,
                                100.0, new Date(30, Month.November, 2004));

             IPricingEngine bondEngine2 = new DiscountingBondEngine(discountCurve);
             bond2.setPricingEngine(bondEngine2);

             Utils.setCouponPricer(bond2.cashflows(), pricer);

            #if QL_USE_INDEXED_COUPON
            double cachedPrice2 = 97.955904;
            #else
             double cachedPrice2 = 97.955904;
            #endif

             price = bond2.cleanPrice();
             if (Math.Abs(price - cachedPrice2) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice2 + "\n"
                       + "    error:      " + (price - cachedPrice2));
             }

             // varying spread
             InitializedList<double> spreads = new InitializedList<double>(4);
             spreads[0] = 0.001;
             spreads[1] = 0.0012;
             spreads[2] = 0.0014;
             spreads[3] = 0.0016;

             FloatingRateBond bond3 = new FloatingRateBond(settlementDays, vars.faceAmount, sch,
                                index, new ActualActual(ActualActual.Convention.ISMA),
                                BusinessDayConvention.ModifiedFollowing, fixingDays,
                                new List<double>(), spreads,
                                new List<double>(), new List<double>(),
                                false,
                                100.0, new Date(30, Month.November, 2004));

             bond3.setPricingEngine(bondEngine2);

             Utils.setCouponPricer(bond3.cashflows(), pricer);

            #if QL_USE_INDEXED_COUPON
            double cachedPrice3 = 98.495458;
            #else
             double cachedPrice3 = 98.495459;
            #endif

             price = bond3.cleanPrice();
             if (Math.Abs(price - cachedPrice3) > tolerance)
             {
            Assert.Fail("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice3 + "\n"
                       + "    error:      " + (price - cachedPrice3));
             }
        }
Exemplo n.º 58
0
        public void testCachedZero()
        {
            Console.WriteLine("Testing zero-coupon bond prices against cached values...");

             CommonVars vars = new CommonVars();

             Date today = new Date(22, Month.November, 2004);
             Settings.setEvaluationDate(today);

             int settlementDays = 1;

             var discountCurve = new Handle<YieldTermStructure>(Utilities.flatRate(today, 0.03, new Actual360()));

             double tolerance = 1.0e-6;

             // plain
             ZeroCouponBond bond1 = new ZeroCouponBond(settlementDays, new UnitedStates(UnitedStates.Market.GovernmentBond),
                              vars.faceAmount, new Date(30, Month.November, 2008), BusinessDayConvention.ModifiedFollowing,
                              100.0, new Date(30, Month.November, 2004));

             IPricingEngine bondEngine = new DiscountingBondEngine(discountCurve);
             bond1.setPricingEngine(bondEngine);

             double cachedPrice1 = 88.551726;

             double price = bond1.cleanPrice();
             if (Math.Abs(price - cachedPrice1) > tolerance)
             {
            Console.WriteLine("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice1 + "\n"
                       + "    error:      " + (price - cachedPrice1));
             }

             ZeroCouponBond bond2 = new ZeroCouponBond(settlementDays, new UnitedStates(UnitedStates.Market.GovernmentBond),
                              vars.faceAmount, new Date(30, Month.November, 2007), BusinessDayConvention.ModifiedFollowing,
                              100.0, new Date(30, Month.November, 2004));

             bond2.setPricingEngine(bondEngine);

             double cachedPrice2 = 91.278949;

             price = bond2.cleanPrice();
             if (Math.Abs(price - cachedPrice2) > tolerance)
             {
            Console.WriteLine("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice2 + "\n"
                       + "    error:      " + (price - cachedPrice2));
             }

             ZeroCouponBond bond3 = new ZeroCouponBond(settlementDays, new UnitedStates(UnitedStates.Market.GovernmentBond),
                              vars.faceAmount, new Date(30, Month.November, 2006), BusinessDayConvention.ModifiedFollowing,
                              100.0, new Date(30, Month.November, 2004));

             bond3.setPricingEngine(bondEngine);

             double cachedPrice3 = 94.098006;

             price = bond3.cleanPrice();
             if (Math.Abs(price - cachedPrice3) > tolerance)
             {
            Console.WriteLine("failed to reproduce cached price:\n"
                       + "    calculated: " + price + "\n"
                       + "    expected:   " + cachedPrice3 + "\n"
                       + "    error:      " + (price - cachedPrice3));
             }
        }
Exemplo n.º 59
0
        public void testBrazilianCached()
        {
            //("Testing Brazilian public bond prices against cached values...");

             CommonVars vars = new CommonVars();

             double faceAmount = 1000.0;
             double redemption = 100.0;
             Date issueDate = new Date(1, Month.January, 2007);

             Date today = new Date(6, Month.June, 2007);
             Settings.setEvaluationDate(today);

             // NTN-F maturity dates
             InitializedList<Date> maturityDates = new InitializedList<Date>(6);
             maturityDates[0] = new Date(1, Month.January, 2008);
             maturityDates[1] = new Date(1, Month.January, 2010);
             maturityDates[2] = new Date(1, Month.July, 2010);
             maturityDates[3] = new Date(1, Month.January, 2012);
             maturityDates[4] = new Date(1, Month.January, 2014);
             maturityDates[5] = new Date(1, Month.January, 2017);

             // NTN-F yields
             InitializedList<double> yields = new InitializedList<double>(6);
             yields[0] = 0.114614;
             yields[1] = 0.105726;
             yields[2] = 0.105328;
             yields[3] = 0.104283;
             yields[4] = 0.103218;
             yields[5] = 0.102948;

             // NTN-F prices
             InitializedList<double> prices = new InitializedList<double>(6);
             prices[0] = 1034.63031372;
             prices[1] = 1030.09919487;
             prices[2] = 1029.98307160;
             prices[3] = 1028.13585068;
             prices[4] = 1028.33383817;
             prices[5] = 1026.19716497;

             int settlementDays = 1;
             vars.faceAmount = 1000.0;

             // The tolerance is high because Andima truncate yields
             double tolerance = 1.0e-4;

             InitializedList<InterestRate> couponRates = new InitializedList<InterestRate>(1);
             couponRates[0] = new InterestRate(0.1, new Thirty360(), Compounding.Compounded, Frequency.Annual);

             for (int bondIndex = 0; bondIndex < maturityDates.Count; bondIndex++)
             {

            // plain
            InterestRate yield = new InterestRate(yields[bondIndex], new Business252(new Brazil()),
                                                  Compounding.Compounded, Frequency.Annual);

            Schedule schedule = new Schedule(new Date(1, Month.January, 2007),
                              maturityDates[bondIndex], new Period(Frequency.Semiannual),
                              new Brazil(Brazil.Market.Settlement),
                              BusinessDayConvention.Unadjusted, BusinessDayConvention.Unadjusted,
                              DateGeneration.Rule.Backward, false);

            FixedRateBond bond = new FixedRateBond(settlementDays,
                                                   faceAmount,
                                                   schedule,
                                                   couponRates,
                                                   BusinessDayConvention.Following,
                                                   redemption,
                                                   issueDate);

            double cachedPrice = prices[bondIndex];

            double price = vars.faceAmount * (bond.cleanPrice(yield.rate(),
                                                         yield.dayCounter(),
                                                         yield.compounding(),
                                                         yield.frequency(),
                                                         today) + bond.accruedAmount(today)) / 100;
            if (Math.Abs(price - cachedPrice) > tolerance)
            {
               Assert.Fail("failed to reproduce cached price:\n"
                           + "    calculated: " + price + "\n"
                           + "    expected:   " + cachedPrice + "\n"
                           + "    error:      " + (price - cachedPrice) + "\n"
                           );
            }
             }
        }
Exemplo n.º 60
0
        public void testSpreadDependency()
        {
            //"Testing swaption dependency on spread...";

            CommonVars vars = new CommonVars();

            double[] spreads = { -0.002, -0.001, 0.0, 0.001, 0.002 };

            for (int i=0; i<exercises.Length ; i++) {
                for (int j=0; j<lengths.Length ; j++) {
                    for (int k=0; k<type.Length ; k++) {
                        Date exerciseDate = vars.calendar.advance(vars.today,
                                                                  exercises[i]);
                        Date startDate =
                            vars.calendar.advance(exerciseDate,
                                                  vars.settlementDays,TimeUnit.Days);
                        // store the results for different rates...
                        List<double> values=new InitializedList<double>(spreads.Length);
                        List<double> values_cash = new InitializedList<double>(spreads.Length);
                        for (int l=0; l<spreads.Length; l++) {
                             VanillaSwap swap =
                               new MakeVanillaSwap(lengths[j], vars.index, 0.06)
                                        .withEffectiveDate(startDate)
                                        .withFloatingLegSpread(spreads[l])
                                        .withType(type[k]);
                             Swaption swaption =
                                vars.makeSwaption(swap,exerciseDate,0.20);
                            // FLOATING_POINT_EXCEPTION
                            values[l]=swaption.NPV();
                            Swaption swaption_cash =
                                vars.makeSwaption(swap,exerciseDate,0.20,
                                                  Settlement.Type.Cash);
                            values_cash[l]=swaption_cash.NPV();
                        }
                        // and check that they go the right way
                        if (type[k]==VanillaSwap.Type.Payer) {
                            for (int n = 0; n < spreads.Length - 1; n++)
                            {
                                if (values[n] > values[n + 1])
                                    Assert.Fail("NPV is decreasing with the spread " +
                                        "in a payer swaption (physical delivered):" +
                                        "\nexercise date: " + exerciseDate +
                                        "\nlength:        " + lengths[j] +
                                        "\nvalue:         " + values[n] + " for spread: " + spreads[n] +
                                        "\nvalue:         " + values[n + 1] + " for spread: " + spreads[n + 1]);

                                if (values_cash[n] > values_cash[n + 1])
                                    Assert.Fail("NPV is decreasing with the spread " +
                                        "in a payer swaption (cash delivered):" +
                                        "\nexercise date: " + exerciseDate +
                                        "\nlength: " + lengths[j] +
                                        "\nvalue:  " + values_cash[n] + " for spread: " + spreads[n] +
                                        "\nvalue:  " + values_cash[n + 1] + " for spread: " + spreads[n + 1]);
                            }
                        }
                        else
                        {
                            for (int n = 0; n < spreads.Length - 1; n++)
                            {
                                if (values[n] < values[n + 1])
                                    Assert.Fail("NPV is increasing with the spread " +
                                        "in a receiver swaption (physical delivered):" +
                                        "\nexercise date: " + exerciseDate +
                                        "\nlength: " + lengths[j] +
                                        "\nvalue:  " + values[n] + " for spread: " + spreads[n] +
                                        "\nvalue:  " + values[n + 1] + " for spread: " + spreads[n + 1]);

                                if (values_cash[n] < values_cash[n+1])
                                Assert.Fail("NPV is increasing with the spread " +
                                    "in a receiver swaption (cash delivered):" +
                                    "\nexercise date: " + exerciseDate +
                                    "\nlength: " + lengths[j] +
                                    "\nvalue:  " + values_cash[n  ] + " for spread: " + spreads[n] +
                                    "\nvalue:  " + values_cash[n+1] + " for spread: " + spreads[n+1]);
                            }
                        }
                    }
                }
            }
        }