public virtual void test_zeroRate()
{
LegalEntitySurvivalProbabilities test = LegalEntitySurvivalProbabilities.of(LEGAL_ENTITY, DFS);
double relativeYearFraction = ACT_365F.relativeYearFraction(VALUATION, DATE_AFTER);
double discountFactor = test.survivalProbability(DATE_AFTER);
double zeroRate = test.zeroRate(relativeYearFraction);
assertEquals(Math.Exp(-zeroRate * relativeYearFraction), discountFactor);
}
internal virtual PointSensitivityBuilder riskyAnnuitySensitivity(ResolvedCds cds, CreditDiscountFactors discountFactors, LegalEntitySurvivalProbabilities survivalProbabilities, LocalDate referenceDate, LocalDate stepinDate, LocalDate effectiveStartDate)
{
double pv = 0d;
PointSensitivityBuilder pvSensi = PointSensitivityBuilder.none();
foreach (CreditCouponPaymentPeriod coupon in cds.PaymentPeriods)
{
if (stepinDate.isBefore(coupon.EndDate))
{
double q = survivalProbabilities.survivalProbability(coupon.EffectiveEndDate);
PointSensitivityBuilder qSensi = survivalProbabilities.zeroRatePointSensitivity(coupon.EffectiveEndDate);
double p = discountFactors.discountFactor(coupon.PaymentDate);
PointSensitivityBuilder pSensi = discountFactors.zeroRatePointSensitivity(coupon.PaymentDate);
pv += coupon.YearFraction * p * q;
pvSensi = pvSensi.combinedWith(pSensi.multipliedBy(coupon.YearFraction * q).combinedWith(qSensi.multipliedBy(coupon.YearFraction * p)));
}
}
if (cds.PaymentOnDefault.AccruedInterest)
{
// This is needed so that the code is consistent with ISDA C when the Markit `fix' is used.
LocalDate start = cds.PaymentPeriods.size() == 1 ? effectiveStartDate : cds.AccrualStartDate;
DoubleArray integrationSchedule = DoublesScheduleGenerator.getIntegrationsPoints(discountFactors.relativeYearFraction(start), discountFactors.relativeYearFraction(cds.ProtectionEndDate), discountFactors.ParameterKeys, survivalProbabilities.ParameterKeys);
foreach (CreditCouponPaymentPeriod coupon in cds.PaymentPeriods)
{
Pair <double, PointSensitivityBuilder> pvAndSensi = singlePeriodAccrualOnDefaultSensitivity(coupon, effectiveStartDate, integrationSchedule, discountFactors, survivalProbabilities);
pv += pvAndSensi.First;
pvSensi = pvSensi.combinedWith(pvAndSensi.Second);
}
}
double df = discountFactors.discountFactor(referenceDate);
PointSensitivityBuilder dfSensi = discountFactors.zeroRatePointSensitivity(referenceDate).multipliedBy(-pv / (df * df));
pvSensi = pvSensi.multipliedBy(1d / df);
return(dfSensi.combinedWith(pvSensi));
}
// computes risky annuity
internal virtual double riskyAnnuity(ResolvedCds cds, CreditDiscountFactors discountFactors, LegalEntitySurvivalProbabilities survivalProbabilities, LocalDate referenceDate, LocalDate stepinDate, LocalDate effectiveStartDate, PriceType priceType)
{
double pv = 0d;
foreach (CreditCouponPaymentPeriod coupon in cds.PaymentPeriods)
{
if (stepinDate.isBefore(coupon.EndDate))
{
double q = survivalProbabilities.survivalProbability(coupon.EffectiveEndDate);
double p = discountFactors.discountFactor(coupon.PaymentDate);
pv += coupon.YearFraction * p * q;
}
}
if (cds.PaymentOnDefault.AccruedInterest)
{
// This is needed so that the code is consistent with ISDA C when the Markit `fix' is used.
LocalDate start = cds.PaymentPeriods.size() == 1 ? effectiveStartDate : cds.AccrualStartDate;
DoubleArray integrationSchedule = DoublesScheduleGenerator.getIntegrationsPoints(discountFactors.relativeYearFraction(start), discountFactors.relativeYearFraction(cds.ProtectionEndDate), discountFactors.ParameterKeys, survivalProbabilities.ParameterKeys);
foreach (CreditCouponPaymentPeriod coupon in cds.PaymentPeriods)
{
pv += singlePeriodAccrualOnDefault(coupon, effectiveStartDate, integrationSchedule, discountFactors, survivalProbabilities);
}
}
// roll to the cash settle date
double df = discountFactors.discountFactor(referenceDate);
pv /= df;
if (priceType.CleanPrice)
{
pv -= cds.accruedYearFraction(stepinDate);
}
return(pv);
}
//-------------------------------------------------------------------------
public virtual void test_survivalProbability()
{
LegalEntitySurvivalProbabilities test = LegalEntitySurvivalProbabilities.of(LEGAL_ENTITY, DFS);
assertEquals(test.survivalProbability(DATE_AFTER), DFS.discountFactor(DATE_AFTER));
}