public virtual void test_ofLestSquare() { double chiSq = 5.5e-6; IborCapletFloorletVolatilityCalibrationResult test = IborCapletFloorletVolatilityCalibrationResult.ofLeastSquare(VOLS, chiSq); assertEquals(test.Volatilities, VOLS); assertEquals(test.ChiSquare, chiSq); }
//------------------------------------------------------------------------- public virtual void coverage() { double chiSq = 5.5e-12; IborCapletFloorletVolatilityCalibrationResult test1 = IborCapletFloorletVolatilityCalibrationResult.ofLeastSquare(VOLS, chiSq); coverImmutableBean(test1); IborCapletFloorletVolatilityCalibrationResult test2 = IborCapletFloorletVolatilityCalibrationResult.ofRootFind(BlackIborCapletFloorletExpiryStrikeVolatilities.of(GBP_LIBOR_3M, VALUATION, SURFACE)); coverBeanEquals(test1, test2); }
//------------------------------------------------------------------------- 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 SabrIborCapletFloorletVolatilityCalibrationDefinition, "definition should be SabrIborCapletFloorletVolatilityCalibrationDefinition"); SabrIborCapletFloorletVolatilityCalibrationDefinition sabrDefinition = (SabrIborCapletFloorletVolatilityCalibrationDefinition)definition; // unpack cap data, create node caps IborIndex index = sabrDefinition.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(sabrDefinition, calibrationDateTime, capFloorData); SurfaceMetadata metadata = sabrDefinition.createMetadata(capFloorData); IList <Period> expiries = capFloorData.Expiries; DoubleArray strikes = capFloorData.Strikes; int nExpiries = expiries.Count; 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>(); DoubleMatrix errorMatrix = capFloorData.Error.orElse(DoubleMatrix.filled(nExpiries, strikes.size(), 1d)); int[] startIndex = new int[nExpiries + 1]; for (int i = 0; i < nExpiries; ++i) { LocalDate endDate = baseDate.plus(expiries[i]); DoubleArray volatilityForTime = capFloorData.Data.row(i); DoubleArray errorForTime = errorMatrix.row(i); reduceRawData(sabrDefinition, ratesProvider, capFloorData.Strikes, volatilityForTime, errorForTime, 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]); } // create initial caplet vol surface IList <CurveMetadata> metadataList = sabrDefinition.createSabrParameterMetadata(); DoubleArray initialValues = sabrDefinition.createFullInitialValues(); IList <Curve> curveList = sabrDefinition.createSabrParameterCurve(metadataList, initialValues); SabrParameters sabrParamsInitial = SabrParameters.of(curveList[0], curveList[1], curveList[2], curveList[3], sabrDefinition.ShiftCurve, sabrDefinition.SabrVolatilityFormula); SabrParametersIborCapletFloorletVolatilities vols = SabrParametersIborCapletFloorletVolatilities.of(sabrDefinition.Name, index, calibrationDateTime, sabrParamsInitial); // solve least square UncoupledParameterTransforms transform = new UncoupledParameterTransforms(initialValues, sabrDefinition.createFullTransform(TRANSFORMS), new BitArray()); System.Func <DoubleArray, DoubleArray> valueFunction = createPriceFunction(sabrDefinition, ratesProvider, vols, capList, priceList); System.Func <DoubleArray, DoubleMatrix> jacobianFunction = createJacobianFunction(sabrDefinition, ratesProvider, vols, capList, priceList, index.Currency); NonLinearTransformFunction transFunc = new NonLinearTransformFunction(valueFunction, jacobianFunction, transform); LeastSquareResults res = solver.solve(DoubleArray.filled(priceList.Count, 1d), DoubleArray.copyOf(errorList), transFunc.FittingFunction, transFunc.FittingJacobian, transform.transform(initialValues)); LeastSquareResultsWithTransform resTransform = new LeastSquareResultsWithTransform(res, transform); vols = updateParameters(sabrDefinition, vols, resTransform.ModelParameters); return(IborCapletFloorletVolatilityCalibrationResult.ofLeastSquare(vols, res.ChiSq)); }
//------------------------------------------------------------------------- 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)); }
//------------------------------------------------------------------------- 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 DirectIborCapletFloorletVolatilityDefinition, "definition should be DirectIborCapletFloorletVolatilityDefinition"); DirectIborCapletFloorletVolatilityDefinition directDefinition = (DirectIborCapletFloorletVolatilityDefinition)definition; // unpack cap data, create node caps IborIndex index = directDefinition.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(directDefinition, calibrationDateTime, capFloorData); SurfaceMetadata metadata = directDefinition.createMetadata(capFloorData); IList <Period> expiries = capFloorData.Expiries; DoubleArray strikes = capFloorData.Strikes; int nExpiries = expiries.Count; 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>(); DoubleMatrix errorMatrix = capFloorData.Error.orElse(DoubleMatrix.filled(nExpiries, strikes.size(), 1d)); int[] startIndex = new int[nExpiries + 1]; for (int i = 0; i < nExpiries; ++i) { LocalDate endDate = baseDate.plus(expiries[i]); DoubleArray volatilityForTime = capFloorData.Data.row(i); DoubleArray errorForTime = errorMatrix.row(i); reduceRawData(directDefinition, ratesProvider, capFloorData.Strikes, volatilityForTime, errorForTime, 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]); } // create caplet nodes and initial caplet vol surface ResolvedIborCapFloorLeg cap = capList[capList.Count - 1]; int nCaplets = cap.CapletFloorletPeriods.size(); DoubleArray capletExpiries = DoubleArray.of(nCaplets, n => directDefinition.DayCount.relativeYearFraction(calibrationDate, cap.CapletFloorletPeriods.get(n).FixingDateTime.toLocalDate())); Triple <DoubleArray, DoubleArray, DoubleArray> capletNodes; DoubleArray initialVols = DoubleArray.copyOf(volList); if (directDefinition.ShiftCurve.Present) { metadata = Surfaces.blackVolatilityByExpiryStrike(directDefinition.Name.Name, directDefinition.DayCount); Curve shiftCurve = directDefinition.ShiftCurve.get(); if (capFloorData.DataType.Equals(NORMAL_VOLATILITY)) { initialVols = DoubleArray.of(capList.Count, n => volList[n] / (ratesProvider.iborIndexRates(index).rate(capList[n].FinalPeriod.IborRate.Observation) + shiftCurve.yValue(timeList[n]))); } InterpolatedNodalSurface capVolSurface = InterpolatedNodalSurface.of(metadata, DoubleArray.copyOf(timeList), DoubleArray.copyOf(strikeList), initialVols, INTERPOLATOR); capletNodes = createCapletNodes(capVolSurface, capletExpiries, strikes, directDefinition.ShiftCurve.get()); volatilitiesFunction = createShiftedBlackVolatilitiesFunction(index, calibrationDateTime, shiftCurve); } else { InterpolatedNodalSurface capVolSurface = InterpolatedNodalSurface.of(metadata, DoubleArray.copyOf(timeList), DoubleArray.copyOf(strikeList), initialVols, INTERPOLATOR); capletNodes = createCapletNodes(capVolSurface, capletExpiries, strikes); } InterpolatedNodalSurface baseSurface = InterpolatedNodalSurface.of(metadata, capletNodes.First, capletNodes.Second, capletNodes.Third, INTERPOLATOR); DoubleMatrix penaltyMatrix = directDefinition.computePenaltyMatrix(strikes, capletExpiries); // solve least square LeastSquareResults res = solver.solve(DoubleArray.copyOf(priceList), DoubleArray.copyOf(errorList), getPriceFunction(capList, ratesProvider, volatilitiesFunction, baseSurface), getJacobianFunction(capList, ratesProvider, volatilitiesFunction, baseSurface), capletNodes.Third, penaltyMatrix, POSITIVE); InterpolatedNodalSurface resSurface = InterpolatedNodalSurface.of(metadata, capletNodes.First, capletNodes.Second, res.FitParameters, directDefinition.Interpolator); return(IborCapletFloorletVolatilityCalibrationResult.ofLeastSquare(volatilitiesFunction(resSurface), res.ChiSq)); }