Ejemplo n.º 1
0
        /// <summary>
        /// Computes cash flow equivalent of Ibor leg.
        /// <para>
        /// The return type is {@code ResolvedSwapLeg} in which individual payments are
        /// represented in terms of {@code NotionalExchange}.
        ///
        /// </para>
        /// </summary>
        /// <param name="iborLeg">  the Ibor leg </param>
        /// <param name="ratesProvider">  the rates provider </param>
        /// <returns> the cash flow equivalent </returns>
        public static ResolvedSwapLeg cashFlowEquivalentIborLeg(ResolvedSwapLeg iborLeg, RatesProvider ratesProvider)
        {
            ArgChecker.isTrue(iborLeg.Type.Equals(SwapLegType.IBOR), "Leg type should be IBOR");
            ArgChecker.isTrue(iborLeg.PaymentEvents.Empty, "PaymentEvent should be empty");
            IList <NotionalExchange> paymentEvents = new List <NotionalExchange>();

            foreach (SwapPaymentPeriod paymentPeriod in iborLeg.PaymentPeriods)
            {
                ArgChecker.isTrue(paymentPeriod is RatePaymentPeriod, "rate payment should be RatePaymentPeriod");
                RatePaymentPeriod ratePaymentPeriod = (RatePaymentPeriod)paymentPeriod;
                ArgChecker.isTrue(ratePaymentPeriod.AccrualPeriods.size() == 1, "rate payment should not be compounding");
                RateAccrualPeriod    rateAccrualPeriod = ratePaymentPeriod.AccrualPeriods.get(0);
                CurrencyAmount       notional          = ratePaymentPeriod.NotionalAmount;
                LocalDate            paymentDate       = ratePaymentPeriod.PaymentDate;
                IborIndexObservation obs             = ((IborRateComputation)rateAccrualPeriod.RateComputation).Observation;
                IborIndex            index           = obs.Index;
                LocalDate            fixingStartDate = obs.EffectiveDate;
                double           fixingYearFraction  = obs.YearFraction;
                double           beta     = (1d + fixingYearFraction * ratesProvider.iborIndexRates(index).rate(obs)) * ratesProvider.discountFactor(paymentPeriod.Currency, paymentPeriod.PaymentDate) / ratesProvider.discountFactor(paymentPeriod.Currency, fixingStartDate);
                double           ycRatio  = rateAccrualPeriod.YearFraction / fixingYearFraction;
                NotionalExchange payStart = NotionalExchange.of(notional.multipliedBy(beta * ycRatio), fixingStartDate);
                NotionalExchange payEnd   = NotionalExchange.of(notional.multipliedBy(-ycRatio), paymentDate);
                paymentEvents.Add(payStart);
                paymentEvents.Add(payEnd);
            }
            ResolvedSwapLeg leg = ResolvedSwapLeg.builder().paymentEvents(paymentEvents).payReceive(PayReceive.RECEIVE).type(SwapLegType.OTHER).build();

            return(leg);
        }
Ejemplo n.º 2
0
        /// <summary>
        /// Computes cash flow equivalent of fixed leg.
        /// <para>
        /// The return type is {@code ResolvedSwapLeg} in which individual payments are
        /// represented in terms of {@code NotionalExchange}.
        ///
        /// </para>
        /// </summary>
        /// <param name="fixedLeg">  the fixed leg </param>
        /// <param name="ratesProvider">  the rates provider </param>
        /// <returns> the cash flow equivalent </returns>
        public static ResolvedSwapLeg cashFlowEquivalentFixedLeg(ResolvedSwapLeg fixedLeg, RatesProvider ratesProvider)
        {
            ArgChecker.isTrue(fixedLeg.Type.Equals(SwapLegType.FIXED), "Leg type should be FIXED");
            ArgChecker.isTrue(fixedLeg.PaymentEvents.Empty, "PaymentEvent should be empty");
            IList <NotionalExchange> paymentEvents = new List <NotionalExchange>();

            foreach (SwapPaymentPeriod paymentPeriod in fixedLeg.PaymentPeriods)
            {
                ArgChecker.isTrue(paymentPeriod is RatePaymentPeriod, "rate payment should be RatePaymentPeriod");
                RatePaymentPeriod ratePaymentPeriod = (RatePaymentPeriod)paymentPeriod;
                ArgChecker.isTrue(ratePaymentPeriod.AccrualPeriods.size() == 1, "rate payment should not be compounding");
                RateAccrualPeriod rateAccrualPeriod = ratePaymentPeriod.AccrualPeriods.get(0);
                double            factor            = rateAccrualPeriod.YearFraction * ((FixedRateComputation)rateAccrualPeriod.RateComputation).Rate;
                CurrencyAmount    notional          = ratePaymentPeriod.NotionalAmount.multipliedBy(factor);
                LocalDate         paymentDate       = ratePaymentPeriod.PaymentDate;
                NotionalExchange  pay = NotionalExchange.of(notional, paymentDate);
                paymentEvents.Add(pay);
            }
            ResolvedSwapLeg leg = ResolvedSwapLeg.builder().paymentEvents(paymentEvents).payReceive(PayReceive.RECEIVE).type(SwapLegType.OTHER).build();

            return(leg);
        }