/** * Computes the price curve sensitivity in the Hull-White one factor model. * * @param security The option security. * @param hwMulticurves The multi-curves provider with Hull-White one factor parameters. * @return The curve sensitivity. */ @Override public MulticurveSensitivity priceCurveSensitivity( final InterestRateFutureOptionMarginSecurity security, final HullWhiteOneFactorProviderInterface hwMulticurves) { ArgumentChecker.notNull(security, "Option security"); ArgumentChecker.notNull(hwMulticurves, "Hull-White and multi-curves data"); ArgumentChecker.isTrue( security.getCurrency().equals(hwMulticurves.getHullWhiteCurrency()), "Model currency incompatible with security currency"); final MulticurveProviderInterface multicurves = hwMulticurves.getMulticurveProvider(); final HullWhiteOneFactorPiecewiseConstantParameters parameters = hwMulticurves.getHullWhiteParameters(); final double k = security.getStrike(); final double ktilde = 1.0 - k; final double theta = security.getExpirationTime(); final double delta = security.getUnderlyingFuture().getFixingPeriodAccrualFactor(); final double t0 = security.getUnderlyingFuture().getTradingLastTime(); final double t1 = security.getUnderlyingFuture().getFixingPeriodStartTime(); final double t2 = security.getUnderlyingFuture().getFixingPeriodEndTime(); // forward sweep final double alpha = MODEL.alpha(parameters, 0.0, theta, t1, t2); final double gamma = MODEL.futuresConvexityFactor(parameters, t0, t1, t2); final double forward = multicurves.getSimplyCompoundForwardRate( security.getUnderlyingFuture().getIborIndex(), t1, t2, delta); final double kappa = -Math.log((1 + delta * ktilde) / (1 + delta * forward) / gamma) / alpha - 0.5 * alpha; // Bakcward sweep final double priceBar = 1.0; double forwardBar; if (security.isCall()) { final double normalAlphaKappa = NORMAL.getCDF(-kappa - alpha); forwardBar = -gamma * normalAlphaKappa * priceBar; } else { final double normalAlphaKappa = NORMAL.getCDF(kappa + alpha); forwardBar = gamma * normalAlphaKappa * priceBar; } final Map<String, List<ForwardSensitivity>> mapFwd = new HashMap<>(); final List<ForwardSensitivity> listForward = new ArrayList<>(); listForward.add(new SimplyCompoundedForwardSensitivity(t1, t2, delta, forwardBar)); mapFwd.put( hwMulticurves .getMulticurveProvider() .getName(security.getUnderlyingFuture().getIborIndex()), listForward); return MulticurveSensitivity.ofForward(mapFwd); }
/** * Returns the convexity adjustment, i.e. the difference between the adjusted price and the * present value of the underlying swap. * * @param futures The swap futures. * @param hwMulticurves The multi-curve and parameters provider. * @return The adjustment. */ public double convexityAdjustment( final SwapFuturesPriceDeliverableSecurity futures, final HullWhiteOneFactorProviderInterface hwMulticurves) { ArgChecker.notNull(futures, "swap futures"); ArgChecker.notNull(hwMulticurves, "parameter provider"); MultiCurrencyAmount pv = futures.getUnderlyingSwap().accept(PVDC, hwMulticurves.getMulticurveProvider()); double price = price(futures, hwMulticurves); return price - (1.0d + pv.getAmount(futures.getCurrency()).getAmount()); }
/** * Computes the price in the Hull-White one factor model. * * @param security The option security. * @param hwMulticurves The multi-curves provider with Hull-White one factor parameters. * @return The price. */ @Override public double price( final InterestRateFutureOptionMarginSecurity security, final HullWhiteOneFactorProviderInterface hwMulticurves) { ArgumentChecker.notNull(security, "Option security"); ArgumentChecker.notNull(hwMulticurves, "Hull-White and multi-curves data"); ArgumentChecker.isTrue( security.getCurrency().equals(hwMulticurves.getHullWhiteCurrency()), "Model currency incompatible with security currency"); final MulticurveProviderInterface multicurves = hwMulticurves.getMulticurveProvider(); final HullWhiteOneFactorPiecewiseConstantParameters parameters = hwMulticurves.getHullWhiteParameters(); final double k = security.getStrike(); final double ktilde = 1.0 - k; final double theta = security.getExpirationTime(); final double delta = security.getUnderlyingFuture().getFixingPeriodAccrualFactor(); final double t0 = security.getUnderlyingFuture().getTradingLastTime(); final double t1 = security.getUnderlyingFuture().getFixingPeriodStartTime(); final double t2 = security.getUnderlyingFuture().getFixingPeriodEndTime(); final double alpha = MODEL.alpha(parameters, 0.0, theta, t1, t2); final double gamma = MODEL.futuresConvexityFactor(parameters, t0, t1, t2); final double forward = multicurves.getSimplyCompoundForwardRate( security.getUnderlyingFuture().getIborIndex(), t1, t2, delta); final double kappa = -Math.log((1 + delta * ktilde) / (1 + delta * forward) / gamma) / alpha - 0.5 * alpha; if (security.isCall()) { final double normalKappa = NORMAL.getCDF(-kappa); final double normalAlphaKappa = NORMAL.getCDF(-kappa - alpha); return (1 - k + 1.0 / delta) * normalKappa - (1.0 / delta + forward) * gamma * normalAlphaKappa; } final double normalKappa = NORMAL.getCDF(kappa); final double normalAlphaKappa = NORMAL.getCDF(kappa + alpha); return (1.0 / delta + forward) * gamma * normalAlphaKappa - (1 - k + 1.0 / delta) * normalKappa; }