public virtual void test_createMetadata_wrongValueType()
        {
            SabrIborCapletFloorletVolatilityBootstrapDefinition @base = SabrIborCapletFloorletVolatilityBootstrapDefinition.ofFixedBeta(NAME, USD_LIBOR_3M, ACT_ACT_ISDA, 0.5, LINEAR, FLAT, FLAT, SabrVolatilityFormula.hagan());
            RawOptionData capData = RawOptionData.of(ImmutableList.of(Period.ofYears(1), Period.ofYears(5)), DoubleArray.of(0.005, 0.01, 0.015), ValueType.STRIKE, DoubleMatrix.copyOf(new double[][]
            {
                new double[] { 0.15, 0.12, 0.13 },
                new double[] { 0.1, 0.08, 0.09 }
            }), ValueType.PRICE);

            assertThrowsIllegalArg(() => @base.createMetadata(capData));
        }
        public virtual void test_createMetadata_black()
        {
            SabrIborCapletFloorletVolatilityBootstrapDefinition @base = SabrIborCapletFloorletVolatilityBootstrapDefinition.ofFixedBeta(NAME, USD_LIBOR_3M, ACT_ACT_ISDA, 0.5, LINEAR, FLAT, FLAT, SabrVolatilityFormula.hagan());
            RawOptionData capData = RawOptionData.of(ImmutableList.of(Period.ofYears(1), Period.ofYears(5)), DoubleArray.of(0.005, 0.01, 0.015), ValueType.STRIKE, DoubleMatrix.copyOf(new double[][]
            {
                new double[] { 0.15, 0.12, 0.13 },
                new double[] { 0.1, 0.08, 0.09 }
            }), ValueType.BLACK_VOLATILITY);
            SurfaceMetadata expected = Surfaces.blackVolatilityByExpiryStrike(NAME.Name, ACT_ACT_ISDA);
            SurfaceMetadata computed = @base.createMetadata(capData);

            assertEquals(computed, expected);
        }
Ejemplo n.º 3
0
        //-------------------------------------------------------------------------
        public override IborCapletFloorletVolatilityCalibrationResult calibrate(IborCapletFloorletVolatilityDefinition definition, ZonedDateTime calibrationDateTime, RawOptionData capFloorData, RatesProvider ratesProvider)
        {
            ArgChecker.isTrue(ratesProvider.ValuationDate.Equals(calibrationDateTime.toLocalDate()), "valuationDate of ratesProvider should be coherent to calibrationDateTime");
            ArgChecker.isTrue(definition is SabrIborCapletFloorletVolatilityBootstrapDefinition, "definition should be SabrIborCapletFloorletVolatilityBootstrapDefinition");
            SabrIborCapletFloorletVolatilityBootstrapDefinition bsDefinition = (SabrIborCapletFloorletVolatilityBootstrapDefinition)definition;
            IborIndex index           = bsDefinition.Index;
            LocalDate calibrationDate = calibrationDateTime.toLocalDate();
            LocalDate baseDate        = index.EffectiveDateOffset.adjust(calibrationDate, ReferenceData);
            LocalDate startDate       = baseDate.plus(index.Tenor);

            System.Func <Surface, IborCapletFloorletVolatilities> volatilitiesFunction = this.volatilitiesFunction(bsDefinition, calibrationDateTime, capFloorData);
            SurfaceMetadata metaData                = bsDefinition.createMetadata(capFloorData);
            IList <Period>  expiries                = capFloorData.Expiries;
            int             nExpiries               = expiries.Count;
            DoubleArray     strikes                 = capFloorData.Strikes;
            DoubleMatrix    errorsMatrix            = capFloorData.Error.orElse(DoubleMatrix.filled(nExpiries, strikes.size(), 1d));
            IList <double>  timeList                = new List <double>();
            IList <double>  strikeList              = new List <double>();
            IList <double>  volList                 = new List <double>();
            IList <ResolvedIborCapFloorLeg> capList = new List <ResolvedIborCapFloorLeg>();
            IList <double> priceList                = new List <double>();
            IList <double> errorList                = new List <double>();

            int[] startIndex = new int[nExpiries + 1];
            for (int i = 0; i < nExpiries; ++i)
            {
                LocalDate   endDate        = baseDate.plus(expiries[i]);
                DoubleArray volatilityData = capFloorData.Data.row(i);
                DoubleArray errors         = errorsMatrix.row(i);
                reduceRawData(bsDefinition, ratesProvider, strikes, volatilityData, errors, startDate, endDate, metaData, volatilitiesFunction, timeList, strikeList, volList, capList, priceList, errorList);
                startIndex[i + 1] = volList.Count;
                ArgChecker.isTrue(startIndex[i + 1] > startIndex[i], "no valid option data for {}", expiries[i]);
            }

            IList <CurveMetadata> metadataList   = bsDefinition.createSabrParameterMetadata();
            DoubleArray           timeToExpiries = DoubleArray.of(nExpiries, i => timeList[startIndex[i]]);

            BitArray @fixed  = new BitArray();
            bool     betaFix = false;
            Curve    betaCurve;
            Curve    rhoCurve;

            if (bsDefinition.BetaCurve.Present)
            {
                betaFix = true;
                @fixed.Set(1, true);
                betaCurve = bsDefinition.BetaCurve.get();
                rhoCurve  = InterpolatedNodalCurve.of(metadataList[2], timeToExpiries, DoubleArray.filled(nExpiries), bsDefinition.Interpolator, bsDefinition.ExtrapolatorLeft, bsDefinition.ExtrapolatorRight);
            }
            else
            {
                @fixed.Set(2, true);
                betaCurve = InterpolatedNodalCurve.of(metadataList[1], timeToExpiries, DoubleArray.filled(nExpiries), bsDefinition.Interpolator, bsDefinition.ExtrapolatorLeft, bsDefinition.ExtrapolatorRight);
                rhoCurve  = bsDefinition.RhoCurve.get();
            }
            InterpolatedNodalCurve alphaCurve = InterpolatedNodalCurve.of(metadataList[0], timeToExpiries, DoubleArray.filled(nExpiries), bsDefinition.Interpolator, bsDefinition.ExtrapolatorLeft, bsDefinition.ExtrapolatorRight);
            InterpolatedNodalCurve nuCurve    = InterpolatedNodalCurve.of(metadataList[3], timeToExpiries, DoubleArray.filled(nExpiries), bsDefinition.Interpolator, bsDefinition.ExtrapolatorLeft, bsDefinition.ExtrapolatorRight);
            Curve          shiftCurve         = bsDefinition.ShiftCurve;
            SabrParameters sabrParams         = SabrParameters.of(alphaCurve, betaCurve, rhoCurve, nuCurve, shiftCurve, bsDefinition.SabrVolatilityFormula);
            SabrParametersIborCapletFloorletVolatilities vols = SabrParametersIborCapletFloorletVolatilities.of(bsDefinition.Name, index, calibrationDateTime, sabrParams);
            double        totalChiSq = 0d;
            ZonedDateTime prevExpiry = calibrationDateTime.minusDays(1L);     // included if calibrationDateTime == fixingDateTime

            for (int i = 0; i < nExpiries; ++i)
            {
                DoubleArray start = computeInitialValues(ratesProvider, betaCurve, shiftCurve, timeList, volList, capList, startIndex, i, betaFix, capFloorData.DataType);
                UncoupledParameterTransforms transform = new UncoupledParameterTransforms(start, TRANSFORMS, @fixed);
                int nCaplets     = startIndex[i + 1] - startIndex[i];
                int currentStart = startIndex[i];
                System.Func <DoubleArray, DoubleArray>  valueFunction    = createPriceFunction(ratesProvider, vols, prevExpiry, capList, priceList, startIndex, nExpiries, i, nCaplets, betaFix);
                System.Func <DoubleArray, DoubleMatrix> jacobianFunction = createJacobianFunction(ratesProvider, vols, prevExpiry, capList, priceList, index.Currency, startIndex, nExpiries, i, nCaplets, betaFix);
                NonLinearTransformFunction transFunc = new NonLinearTransformFunction(valueFunction, jacobianFunction, transform);
                DoubleArray        adjustedPrices    = this.adjustedPrices(ratesProvider, vols, prevExpiry, capList, priceList, startIndex, i, nCaplets);
                DoubleArray        errors            = DoubleArray.of(nCaplets, n => errorList[currentStart + n]);
                LeastSquareResults res = solver.solve(adjustedPrices, errors, transFunc.FittingFunction, transFunc.FittingJacobian, transform.transform(start));
                LeastSquareResultsWithTransform resTransform = new LeastSquareResultsWithTransform(res, transform);
                vols        = updateParameters(vols, nExpiries, i, betaFix, resTransform.ModelParameters);
                totalChiSq += res.ChiSq;
                prevExpiry  = capList[startIndex[i + 1] - 1].FinalFixingDateTime;
            }
            return(IborCapletFloorletVolatilityCalibrationResult.ofLeastSquare(vols, totalChiSq));
        }