/// <summary> /// Test present value sensitivity for AFMA FRA discounting method. /// </summary> public virtual void test_presentValueSensitivity_AFMA() { RateComputationFn<RateComputation> mockObs = mock(typeof(RateComputationFn)); DiscountFactors mockDf = mock(typeof(DiscountFactors)); SimpleRatesProvider simpleProv = new SimpleRatesProvider(VAL_DATE, mockDf); ResolvedFra fraExp = RFRA_AFMA; double forwardRate = 0.05; double discountRate = 0.025; double paymentTime = 0.3; double discountFactor = Math.Exp(-discountRate * paymentTime); LocalDate fixingDate = FRA_AFMA.StartDate; IborIndexObservation obs = IborIndexObservation.of(FRA.Index, fixingDate, REF_DATA); PointSensitivityBuilder sens = IborRateSensitivity.of(obs, 1d); when(mockDf.discountFactor(fraExp.PaymentDate)).thenReturn(discountFactor); when(mockDf.zeroRatePointSensitivity(fraExp.PaymentDate)).thenReturn(ZeroRateSensitivity.of(fraExp.Currency, paymentTime, -discountFactor * paymentTime)); when(mockObs.rateSensitivity(fraExp.FloatingRate, fraExp.StartDate, fraExp.EndDate, simpleProv)).thenReturn(sens); when(mockObs.rate(fraExp.FloatingRate, FRA_AFMA.StartDate, FRA_AFMA.EndDate, simpleProv)).thenReturn(forwardRate); DiscountingFraProductPricer test = new DiscountingFraProductPricer(mockObs); PointSensitivities sensitivity = test.presentValueSensitivity(fraExp, simpleProv); double eps = 1.e-7; double fdDscSense = dscSensitivity(RFRA_AFMA, forwardRate, discountFactor, paymentTime, eps); double fdSense = presentValueFwdSensitivity(RFRA_AFMA, forwardRate, discountFactor, eps); ImmutableList<PointSensitivity> sensitivities = sensitivity.Sensitivities; assertEquals(sensitivities.size(), 2); IborRateSensitivity sensitivity0 = (IborRateSensitivity) sensitivities.get(0); assertEquals(sensitivity0.Index, FRA_AFMA.Index); assertEquals(sensitivity0.Observation.FixingDate, fixingDate); assertEquals(sensitivity0.Sensitivity, fdSense, FRA_AFMA.Notional * eps); ZeroRateSensitivity sensitivity1 = (ZeroRateSensitivity) sensitivities.get(1); assertEquals(sensitivity1.Currency, FRA_AFMA.Currency); assertEquals(sensitivity1.YearFraction, paymentTime); assertEquals(sensitivity1.Sensitivity, fdDscSense, FRA_AFMA.Notional * eps); }
/// <summary> /// Test FRA paying in the past. /// </summary> public virtual void test_forecastValue_inPast() { SimpleRatesProvider prov = createProvider(RFRA.toBuilder().paymentDate(VAL_DATE.minusDays(1)).build()); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount computed = test.forecastValue(RFRA.toBuilder().paymentDate(VAL_DATE.minusDays(1)).build(), prov); assertEquals(computed.Amount, 0d, TOLERANCE); }
/// <summary> /// Test FRA paying in the past. /// </summary> public virtual void test_presentValue_inPast() { ResolvedFra fra = RFRA.toBuilder().paymentDate(VAL_DATE.minusDays(1)).build(); SimpleRatesProvider prov = createProvider(fra); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount computed = test.presentValue(fra, prov); assertEquals(computed.Amount, 0d, TOLERANCE); }
/// <summary> /// Test present value for ISDA FRA Discounting method. /// </summary> public virtual void test_presentValue_AFMA() { SimpleRatesProvider prov = createProvider(RFRA_AFMA); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount pvComputed = test.presentValue(RFRA_AFMA, prov); CurrencyAmount pvExpected = test.forecastValue(RFRA_AFMA, prov).multipliedBy(DISCOUNT_FACTOR); assertEquals(pvComputed.Amount, pvExpected.Amount, TOLERANCE); }
/// <summary> /// Test par spread for AFMA FRA Discounting method. /// </summary> public virtual void test_parSpread_AFMA() { ResolvedFra fraExp = RFRA_AFMA; SimpleRatesProvider prov = createProvider(fraExp); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; double parSpread = test.parSpread(fraExp, prov); ResolvedFra fra = createNewFra(FRA_AFMA, FRA_AFMA.FixedRate + parSpread); CurrencyAmount pv = test.presentValue(fra, prov); assertEquals(pv.Amount, 0.0, TOLERANCE); }
public virtual void test_presentValueSensitivity_dfCurve_FD() { double eps = 1.0e-6; ImmutableRatesProvider prov = RatesProviderDataSets.MULTI_GBP_USD_SIMPLE; RatesFiniteDifferenceSensitivityCalculator cal = new RatesFiniteDifferenceSensitivityCalculator(eps); DiscountingFraProductPricer pricer = DiscountingFraProductPricer.DEFAULT; ResolvedFra fraExp = RFRA; PointSensitivities point = pricer.presentValueSensitivity(fraExp, prov); CurrencyParameterSensitivities computed = prov.parameterSensitivity(point); CurrencyParameterSensitivities expected = cal.sensitivity(prov, p => pricer.presentValue(fraExp, p)); assertTrue(computed.equalWithTolerance(expected, eps * FRA.Notional)); }
/// <summary> /// Test par rate for NONE FRA Discounting method. /// </summary> public virtual void test_parRate_NONE() { ResolvedFra fraExp = RFRA_NONE; SimpleRatesProvider prov = createProvider(fraExp); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; double parRate = test.parRate(fraExp, prov); assertEquals(parRate, FORWARD_RATE); ResolvedFra fra = createNewFra(FRA_NONE, parRate); CurrencyAmount pv = test.presentValue(fra, prov); assertEquals(pv.Amount, 0.0, TOLERANCE); }
//------------------------------------------------------------------------- /// <summary> /// Test present value for ISDA FRA Discounting method. /// </summary> public virtual void test_presentValue_ISDA() { SimpleRatesProvider prov = createProvider(RFRA); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount pvComputed = test.presentValue(RFRA, prov); CurrencyAmount pvExpected = test.forecastValue(RFRA, prov).multipliedBy(DISCOUNT_FACTOR); assertEquals(pvComputed.Amount, pvExpected.Amount, TOLERANCE); // test via FraTrade DiscountingFraTradePricer testTrade = new DiscountingFraTradePricer(test); assertEquals(testTrade.presentValue(RFRA_TRADE, prov), test.presentValue(RFRA, prov)); }
/// <summary> /// Test forecast value for AFMA FRA Discounting method. /// </summary> public virtual void test_forecastValue_AFMA() { SimpleRatesProvider prov = createProvider(RFRA_AFMA); double fixedRate = FRA_AFMA.FixedRate; double yearFraction = RFRA_AFMA.YearFraction; double notional = RFRA_AFMA.Notional; double expected = -notional * (1.0 / (1.0 + yearFraction * FORWARD_RATE) - 1.0 / (1.0 + yearFraction * fixedRate)); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount computed = test.forecastValue(RFRA_AFMA, prov); assertEquals(computed.Amount, expected, TOLERANCE); }
/// <summary> /// Test forecast value for NONE FRA Discounting method. /// </summary> public virtual void test_forecastValue_NONE() { SimpleRatesProvider prov = createProvider(RFRA_NONE); double fixedRate = FRA_NONE.FixedRate; double yearFraction = RFRA_NONE.YearFraction; double notional = RFRA_NONE.Notional; double expected = notional * yearFraction * (FORWARD_RATE - fixedRate); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount computed = test.forecastValue(RFRA_NONE, prov); assertEquals(computed.Amount, expected, TOLERANCE); }
/// <summary> /// Test par spread for ISDA FRA Discounting method. /// </summary> public virtual void test_parSpread_ISDA() { ResolvedFra fraExp = RFRA; SimpleRatesProvider prov = createProvider(fraExp); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; double parSpread = test.parSpread(fraExp, prov); ResolvedFra fra = createNewFra(FRA, FRA.FixedRate + parSpread); CurrencyAmount pv = test.presentValue(fra, prov); assertEquals(pv.Amount, 0.0, TOLERANCE); // test via FraTrade DiscountingFraTradePricer testTrade = new DiscountingFraTradePricer(test); assertEquals(testTrade.parSpread(RFRA_TRADE, prov), test.parSpread(RFRA, prov)); }
/// <summary> /// Test forecast value sensitivity for AFMA FRA discounting method. /// </summary> public virtual void test_forecastValueSensitivity_AFMA() { SimpleRatesProvider prov = createProvider(RFRA_AFMA); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; PointSensitivities sensitivity = test.forecastValueSensitivity(RFRA_AFMA, prov); double eps = 1.e-7; double fdSense = forecastValueFwdSensitivity(RFRA_AFMA, FORWARD_RATE, eps); ImmutableList<PointSensitivity> sensitivities = sensitivity.Sensitivities; assertEquals(sensitivities.size(), 1); IborRateSensitivity sensitivity0 = (IborRateSensitivity) sensitivities.get(0); assertEquals(sensitivity0.Index, FRA_AFMA.Index); assertEquals(sensitivity0.Observation.FixingDate, FRA_AFMA.StartDate); assertEquals(sensitivity0.Sensitivity, fdSense, FRA_AFMA.Notional * eps); }
/// <summary> /// Test forecast value for ISDA FRA Discounting method. /// </summary> public virtual void test_forecastValue_ISDA() { SimpleRatesProvider prov = createProvider(RFRA); double fixedRate = FRA.FixedRate; double yearFraction = RFRA.YearFraction; double notional = RFRA.Notional; double expected = notional * yearFraction * (FORWARD_RATE - fixedRate) / (1.0 + yearFraction * FORWARD_RATE); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount computed = test.forecastValue(RFRA, prov); assertEquals(computed.Amount, expected, TOLERANCE); // test via FraTrade DiscountingFraTradePricer testTrade = new DiscountingFraTradePricer(test); assertEquals(testTrade.forecastValue(RFRA_TRADE, prov), test.forecastValue(RFRA, prov)); }
//------------------------------------------------------------------------- /// <summary> /// Test explain. /// </summary> public virtual void test_explainPresentValue_ISDA() { ResolvedFra fraExp = RFRA; SimpleRatesProvider prov = createProvider(fraExp); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CurrencyAmount fvExpected = test.forecastValue(fraExp, prov); CurrencyAmount pvExpected = test.presentValue(fraExp, prov); ExplainMap explain = test.explainPresentValue(fraExp, prov); Currency currency = fraExp.Currency; int daysBetween = (int) DAYS.between(fraExp.StartDate, fraExp.EndDate); assertEquals(explain.get(ExplainKey.ENTRY_TYPE).get(), "FRA"); assertEquals(explain.get(ExplainKey.PAYMENT_DATE).get(), fraExp.PaymentDate); assertEquals(explain.get(ExplainKey.START_DATE).get(), fraExp.StartDate); assertEquals(explain.get(ExplainKey.END_DATE).get(), fraExp.EndDate); assertEquals(explain.get(ExplainKey.ACCRUAL_YEAR_FRACTION).Value, fraExp.YearFraction); assertEquals(explain.get(ExplainKey.DAYS).Value, (int?)(int) daysBetween); assertEquals(explain.get(ExplainKey.PAYMENT_CURRENCY).get(), currency); assertEquals(explain.get(ExplainKey.NOTIONAL).get().Amount, fraExp.Notional, TOLERANCE); assertEquals(explain.get(ExplainKey.TRADE_NOTIONAL).get().Amount, fraExp.Notional, TOLERANCE); assertEquals(explain.get(ExplainKey.OBSERVATIONS).get().size(), 1); ExplainMap explainObs = explain.get(ExplainKey.OBSERVATIONS).get().get(0); IborRateComputation floatingRate = (IborRateComputation) fraExp.FloatingRate; assertEquals(explainObs.get(ExplainKey.INDEX).get(), floatingRate.Index); assertEquals(explainObs.get(ExplainKey.FIXING_DATE).get(), floatingRate.FixingDate); assertEquals(explainObs.get(ExplainKey.INDEX_VALUE).Value, FORWARD_RATE, TOLERANCE); assertEquals(explainObs.get(ExplainKey.FROM_FIXING_SERIES).HasValue, false); assertEquals(explain.get(ExplainKey.DISCOUNT_FACTOR).Value, DISCOUNT_FACTOR, TOLERANCE); assertEquals(explain.get(ExplainKey.FIXED_RATE).Value, fraExp.FixedRate, TOLERANCE); assertEquals(explain.get(ExplainKey.PAY_OFF_RATE).Value, FORWARD_RATE, TOLERANCE); assertEquals(explain.get(ExplainKey.COMBINED_RATE).Value, FORWARD_RATE, TOLERANCE); assertEquals(explain.get(ExplainKey.UNIT_AMOUNT).Value, fvExpected.Amount / fraExp.Notional, TOLERANCE); assertEquals(explain.get(ExplainKey.FORECAST_VALUE).get().Currency, currency); assertEquals(explain.get(ExplainKey.FORECAST_VALUE).get().Amount, fvExpected.Amount, TOLERANCE); assertEquals(explain.get(ExplainKey.PRESENT_VALUE).get().Currency, currency); assertEquals(explain.get(ExplainKey.PRESENT_VALUE).get().Amount, pvExpected.Amount, TOLERANCE); // test via FraTrade DiscountingFraTradePricer testTrade = new DiscountingFraTradePricer(test); assertEquals(testTrade.explainPresentValue(RFRA_TRADE, prov), test.explainPresentValue(RFRA, prov)); }
//------------------------------------------------------------------------- /// <summary> /// Test cash flow for ISDA FRA Discounting method. /// </summary> public virtual void test_cashFlows_ISDA() { ResolvedFra fraExp = RFRA; SimpleRatesProvider prov = createProvider(fraExp); double fixedRate = FRA.FixedRate; double yearFraction = fraExp.YearFraction; double notional = fraExp.Notional; double expected = notional * yearFraction * (FORWARD_RATE - fixedRate) / (1.0 + yearFraction * FORWARD_RATE); DiscountingFraProductPricer test = DiscountingFraProductPricer.DEFAULT; CashFlows computed = test.cashFlows(fraExp, prov); assertEquals(computed.getCashFlows().size(), 1); assertEquals(computed.getCashFlows().size(), 1); assertEquals(computed.getCashFlows().get(0).PaymentDate, fraExp.PaymentDate); assertEquals(computed.getCashFlows().get(0).ForecastValue.Currency, fraExp.Currency); assertEquals(computed.getCashFlows().get(0).ForecastValue.Amount, expected, TOLERANCE); // test via FraTrade DiscountingFraTradePricer testTrade = new DiscountingFraTradePricer(test); assertEquals(testTrade.cashFlows(RFRA_TRADE, prov), test.cashFlows(fraExp, prov)); }
/// <summary> /// Creates an instance. /// </summary> /// <param name="productPricer"> the pricer for <seealso cref="ResolvedFra"/> </param> public DiscountingFraTradePricer(DiscountingFraProductPricer productPricer) { this.productPricer = ArgChecker.notNull(productPricer, "productPricer"); }