@Override public DecisionSchedule visitCapFloorIbor( final CapFloorIbor payment, final MulticurveProviderInterface multicurves) { final double[] decisionTime = new double[] {payment.getFixingTime()}; final double fixingStartTime = payment.getFixingPeriodStartTime(); final double fixingEndTime = payment.getFixingPeriodEndTime(); final double paymentTime = payment.getPaymentTime(); final double[][] impactTime = new double[1][]; impactTime[0] = new double[] {fixingStartTime, fixingEndTime, paymentTime}; final double[][] impactAmount = new double[1][]; double forward = multicurves.getForwardRate( payment.getIndex(), payment.getFixingPeriodStartTime(), payment.getFixingPeriodEndTime(), payment.getFixingAccrualFactor()); final double beta = (1.0 + payment.getFixingAccrualFactor() * forward) * multicurves.getDiscountFactor(payment.getCurrency(), payment.getFixingPeriodEndTime()) / multicurves.getDiscountFactor( payment.getCurrency(), payment.getFixingPeriodStartTime()); impactAmount[0] = new double[] {beta, -1.0, 1.0}; final DecisionSchedule decision = new DecisionSchedule(decisionTime, impactTime, impactAmount); return decision; }
public InArrearsDeltaIntegrant( final CapFloorIbor capStandard, final MulticurveProviderInterface curves) { _capStandard = capStandard; _forward = curves.getSimplyCompoundForwardRate( capStandard.getIndex(), capStandard.getFixingPeriodStartTime(), capStandard.getFixingPeriodEndTime(), capStandard.getFixingAccrualFactor()); _expiry = capStandard.getFixingTime(); _df = curves.getDiscountFactor(capStandard.getCurrency(), capStandard.getPaymentTime()); }
/** * Computes the present value of an Ibor cap/floor in arrears by replication based on the paper, * "Swap and Cap/Floors with Fixing in Arrears or Payment Delay," OpenGamma Quantitative * Documentation * http://developers.opengamma.com/quantitative-research/In-Arrears-and-Payment-Delay-Swaps-and-Caps-OpenGamma.pdf * * @param cap The cap/floor * @param curves The curves * @return The present value */ public MultipleCurrencyAmount presentValue( final CapFloorIbor cap, final MulticurveProviderInterface curves) { ArgumentChecker.notNull(cap, "The cap/floor shoud not be null"); ArgumentChecker.notNull(curves, "curves"); final Currency ccy = cap.getCurrency(); // Construct a "standard" CapFloorIbor whose paymentTime is set to be fixingPeriodEndTime CapFloorIbor capStandard = new CapFloorIbor( cap.getCurrency(), cap.getFixingPeriodEndTime(), cap.getPaymentYearFraction(), cap.getNotional(), cap.getFixingTime(), cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor(), cap.getStrike(), cap.isCap()); final double forward = curves.getSimplyCompoundForwardRate( cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor()); final double beta = (1.0 + cap.getFixingAccrualFactor() * forward) * curves.getDiscountFactor(ccy, cap.getFixingPeriodEndTime()) / curves.getDiscountFactor(ccy, cap.getFixingPeriodStartTime()); final double df = curves.getDiscountFactor(capStandard.getCurrency(), capStandard.getPaymentTime()); final double strikePart = (1.0 + cap.getFixingAccrualFactor() * capStandard.getStrike()) * presentValueStandard( forward, capStandard.getStrike(), capStandard.getFixingTime(), capStandard.isCap(), df, capStandard.getNotional(), capStandard.getPaymentYearFraction()); final InArrearsIntegrant integrant = new InArrearsIntegrant(capStandard, curves); double integralPart; try { if (cap.isCap()) { double atmVol = _smileFunction.getVolatility(forward); double upper = forward * Math.exp(6.0 * atmVol * Math.sqrt(cap.getFixingTime())); double strike = cap.getStrike(); integralPart = INTEGRATOR.integrate(integrant, strike, upper); double reminder = integrant.evaluate(upper) * upper; double error = reminder / integralPart; int count = 0; while (Math.abs(error) > REL_ERROR && count < MAX_COUNT) { integralPart += INTEGRATOR.integrate(integrant, upper, 2.0 * upper); upper *= 2.0; // The increase of integralPart in the next loop is bounded by reminder reminder = integrant.evaluate(upper) * upper; error = reminder / integralPart; ++count; if (count == MAX_COUNT) { LOGGER.info( "Maximum iteration count, " + MAX_COUNT + ", has been reached. Relative error is greater than " + REL_ERROR); } } } else { double strike = cap.getStrike(); integralPart = INTEGRATOR.integrate(integrant, REL_TOL * strike, strike); } } catch (final Exception e) { throw new MathException(e); } integralPart *= 2.0 * cap.getFixingAccrualFactor(); final double pv = (strikePart + integralPart) / beta; return MultipleCurrencyAmount.of(cap.getCurrency(), pv); }
/** * Computes the pv sensitivity of an Ibor cap/floor in arrears * * @param cap The cap/floor * @param curves The curves * @return The sensitivity */ public MultipleCurrencyMulticurveSensitivity presentValueCurveSensitivity( final CapFloorIbor cap, final MulticurveProviderInterface curves) { ArgumentChecker.notNull(cap, "The cap/floor shoud not be null"); ArgumentChecker.notNull(curves, "curves"); final Currency ccy = cap.getCurrency(); // Construct a "standard" CapFloorIbor whose paymentTime is set to be fixingPeriodEndTime CapFloorIbor capStandard = new CapFloorIbor( cap.getCurrency(), cap.getFixingPeriodEndTime(), cap.getPaymentYearFraction(), cap.getNotional(), cap.getFixingTime(), cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor(), cap.getStrike(), cap.isCap()); final double forward = curves.getSimplyCompoundForwardRate( cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor()); final double beta = (1.0 + cap.getFixingAccrualFactor() * forward) * curves.getDiscountFactor(ccy, cap.getFixingPeriodEndTime()) / curves.getDiscountFactor(ccy, cap.getFixingPeriodStartTime()); double df = curves.getDiscountFactor(capStandard.getCurrency(), capStandard.getPaymentTime()); double strikePart = (1.0 + cap.getFixingAccrualFactor() * capStandard.getStrike()) * presentValueStandard( forward, capStandard.getStrike(), capStandard.getFixingTime(), capStandard.isCap(), df, capStandard.getNotional(), capStandard.getPaymentYearFraction()); double strikePartDelta = (1.0 + cap.getFixingAccrualFactor() * capStandard.getStrike()) * presentValueDeltaStandard( forward, capStandard.getStrike(), capStandard.getFixingTime(), capStandard.isCap(), df, capStandard.getNotional(), capStandard.getPaymentYearFraction()); final InArrearsIntegrant integrant = new InArrearsIntegrant(capStandard, curves); double integralPart; double upper = 0.0; try { if (cap.isCap()) { double atmVol = _smileFunction.getVolatility(forward); upper = forward * Math.exp(6.0 * atmVol * Math.sqrt(cap.getFixingTime())); double strike = cap.getStrike(); integralPart = INTEGRATOR.integrate(integrant, strike, upper); double reminder = integrant.evaluate(upper) * upper; double error = reminder / integralPart; int count = 0; while (Math.abs(error) > REL_ERROR && count < MAX_COUNT) { integralPart += INTEGRATOR.integrate(integrant, upper, 2.0 * upper); upper *= 2.0; // The increase of integralPart in the next loop is bounded by reminder reminder = integrant.evaluate(upper) * upper; error = reminder / integralPart; ++count; if (count == MAX_COUNT) { LOGGER.info( "Maximum iteration count, " + MAX_COUNT + ", has been reached. Relative error is greater than " + REL_ERROR); } } } else { double strike = cap.getStrike(); integralPart = INTEGRATOR.integrate(integrant, REL_TOL * strike, strike); } } catch (final Exception e) { throw new MathException(e); } integralPart *= 2.0 * cap.getFixingAccrualFactor(); double pv = (strikePart + integralPart) / beta; double betaFwd = cap.getFixingAccrualFactor() * curves.getDiscountFactor(ccy, cap.getFixingPeriodEndTime()) / curves.getDiscountFactor(ccy, cap.getFixingPeriodStartTime()); double betaDscStart = (1.0 + cap.getFixingAccrualFactor() * forward) * curves.getDiscountFactor(ccy, cap.getFixingPeriodEndTime()) * cap.getFixingPeriodStartTime() / curves.getDiscountFactor(ccy, cap.getFixingPeriodStartTime()); double betaDscEnd = -(1.0 + cap.getFixingAccrualFactor() * forward) * curves.getDiscountFactor(ccy, cap.getFixingPeriodEndTime()) * cap.getFixingPeriodEndTime() / curves.getDiscountFactor(ccy, cap.getFixingPeriodStartTime()); List<DoublesPair> listDiscounting = new ArrayList<>(); double strikePartDsc = -capStandard.getPaymentTime() * strikePart; double integralPartDsc = -capStandard.getPaymentTime() * integralPart; listDiscounting.add( DoublesPair.of(capStandard.getPaymentTime(), (strikePartDsc + integralPartDsc) / beta)); listDiscounting.add(DoublesPair.of(cap.getFixingPeriodStartTime(), -pv * betaDscStart / beta)); listDiscounting.add(DoublesPair.of(cap.getFixingPeriodEndTime(), -pv * betaDscEnd / beta)); Map<String, List<DoublesPair>> mapDsc = new HashMap<>(); mapDsc.put(curves.getName(capStandard.getCurrency()), listDiscounting); final List<ForwardSensitivity> listForward = new ArrayList<>(); double strikePartFwd = strikePartDelta; double integralPartFwd = 0.0; final InArrearsDeltaIntegrant integrantFwd = new InArrearsDeltaIntegrant(capStandard, curves); try { if (cap.isCap()) { double strike = cap.getStrike(); integralPartFwd = INTEGRATOR.integrate(integrantFwd, strike, upper); } else { double strike = cap.getStrike(); integralPartFwd = INTEGRATOR.integrate(integrantFwd, REL_TOL * strike, strike); } } catch (final Exception e) { throw new MathException(e); } integralPartFwd *= 2.0 * cap.getFixingAccrualFactor(); listForward.add( new SimplyCompoundedForwardSensitivity( capStandard.getFixingPeriodStartTime(), capStandard.getFixingPeriodEndTime(), capStandard.getFixingAccrualFactor(), (strikePartFwd + integralPartFwd - pv * betaFwd) / beta)); Map<String, List<ForwardSensitivity>> mapFwd = new HashMap<>(); mapFwd.put(curves.getName(capStandard.getIndex()), listForward); return MultipleCurrencyMulticurveSensitivity.of( cap.getCurrency(), MulticurveSensitivity.of(mapDsc, mapFwd)); }